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Новости портала "Магнитные жидкости"

Доканев Михаил представляет

05 апреля 2007 года.

Размещены снимки:

                 1.            М. А. Луниной – одной из основателй науки о магнитных коллоидах

                 2.            Луи Пастера – одного из внесших большой вклад в науку

А также на главную страницу добавлен эпиграф из слов Пастера

18 февраля 2007 года.

Опубликовано предложение к участию и посещению Всероссийской научной конференции «Физико-химические и прикладные проблемы магнитных дисперсных наноситем», что будет проводиться в Ставрополе 9-12 сентября 2007 г.

12 февраля 2007 года.

Опубликован масштабный список наших иностранных друзе, коллег и помощников с их подробными адресами и электронной почтой.

06 февраля 2007 года.

Опубликованы самые свежие статьи 2007 года по различным темам (оригинальные версии – многие на французском языке):

1.     D. Maity, D.C. Agrawal. Synthesis of iron oxide nanoparticles under oxidizing environment and their stabilization in aqueous and non-aqueous media

2.     Huang Aiping, He Huahui, Feng Zekun. Effects of SnO2 addition on the magnetic properties of manganese zinc ferrites

3.     O. Bernard, Jean-Francois dufreche, L. Blum et J.-P hansen. Thermodynamique des fluides associés

4.     Bee, V. Cabuil, F. Cousin, E. Dubois, M. Meyer, O.Sandre, D. Talbot, F. Boue, A. Cebers, P. Licinio, R. Perzynski, A. Ponton. Structure des dispersions de nanoparticles inorganiques

5.     Bee, V. Cabuil, D. El kharrat, A. Galicia, C. Ménager, S. Roger, O. Sandre. Nanoparticules magnetiques et Polymeres

6.     Bée, O. Bernard, V. Cabuil, A Cadène, J. Chevalet, E. Dubois, J.-F. Dufrèche, S. Durand-Vidal, M. Jardat, G. Mériguet, K. Perrigaud, D. Talbot, P. Turq, J.-C. Bacri, M. Kosmulski, E. Maisonhaute, R. Perzynski, Rosenholm. Thèmes transversaux

7.     V. Cabuil. Les ferrofluides

8.     Agnès Bee, Valérie Cabuil, Michaël Meyer, Sophie Neveu, Delphine Talbot, Claude Treiner, Daniel Zins. Synthese et fonctionnalisation

9.     Guillaume Mériguet, Emmanuelle Dubois, Marie Jardat Et Pierre Turq. Structure et dynamique des ferrofluides. Expériences et simulation

10. Zhifei Wang, Huishi Guo, Yinglei Yu, Nongyue He. Synthesis and characterization of a novel magnetic carrier with its composition of Fe3O4/carbon using hydrothermal reaction

11. R.Y. Hong, T.T. Pan, Y.P. Han, H.Z. Li, J. Ding, Sijin Han. Magnetic field synthesis of Fe3O4 nanoparticles used as a precursor of ferrofluids

12. M. Klokkenburg, B.H. Erne. Comparison of reversible and irreversible dipolar assemblies in a ferrofluid

13. Baoqiang Li, Dechang Jia, Yu Zhou, Qiaoling Hu, Wei Cai. In situ hybridization to chitosan/magnetite nanocomposite induced by the magnetic field

14. Xiao-Min Lin, Anna C.S. Sami. Synthesis, assembly and physical properties of magnetic nanoparticles

15. R. Massart, B. Rasolonjatovo, S. Neveu, V. Cabuil. Mercury-based cobalt magnetic fluids and cobalt nanoparticles

16. Valérie Cabuil, Sophie Neveu, Yannic Ramaye. Nanoparticules metalliques

17. P. Veverka, K. Knizek, E. Pollert, J. Bohacek, S. Vasseur, E. Duguet, J. Portier. Strontium ferrite nanoparticles synthesized in presence of polyvinylalcohol: Phase composition, microstructural and magnetic properties

18. E. Pollert, K. Knizek, M. Marysko, K. Zaveta, A. Lancok, J. Bohacek, D. Horak, M. Babi. Magnetic poly(glycidyl methacrylate) microspheres containing maghemite prepared by emulsion polymerization

19. J.N. Pons Et J. Roger, C. Riviere, F. Gazeau, J.F. Deux, D. Letourneur, F. Boudghene, E. Allaire, P. Maillard, I. Laville, J. Blais, A. Volk, L. Johannes, M. Amessou, S. Robine. Applications biomedicales des nanoparticules magnetiques

20. Jean-Noël Pons Et Jacky Roger, Claire Wilhelm, Florence Gazeau, Jean-Claude Bacri. Nanoparticules magnetiques biostables

21. Detlef Muller-Schulte, Thomas Schmitz-Rode. Thermosensitive magnetic polymer particles as contactless controllable drug carriers

22. Andrzej Skumiel. Suitability of water based magnetic fluid with CoFe2O4 particles in hyperthermia

23. Zielinski, A. Skumiel, A. Jozefczak. Experimental investigation of cofe2o4 particle size and acoustic properties of magnetic fluid

24. Susamu Taketomi, Rosetta V. Drew, and Robert D. Shull. Anomalous Magnetic Aftereffect of a Frozen Magnetic Fluid

25. Susamu Taketomi, Rosetta V. Drew, Robert D. Shull. Peculiar magnetic aftereffect of highly diluted frozen magnetic fluids

26. Giap.V. Duong, R. Sato Turtelli, N. Hanha, D.V. Linh, M. Reissner, H. Michor, J. Fidler, G. Wiesinger, R. Grossinger.  Magnetic properties of nanocrystalline Co1xZnxFe2O4 prepared by forced hydrolysis method

27. M. K. Roy and H. C. Verma. Magnetization anomalies of nanosize Zinc ferrite particles prepared using electrodeposition

28. Guoqing Xu, Hongliang Ma, Minjian Zhong, Jiong Zhou, Yuezhong Yue, Zhengming He. Influence of pH on characteristics of BaFe12O19 powder prepared by sol–gel auto-combustion

29. Shouhu Xuan, Lingyun Hao, Wanquan Jiang, Xinglong Gong, Yuan Hu, Zuyao Chen. Preparation of water-soluble magnetite nanocrystals through hydrothermal approach

30. Souilah Zahi, Mansor Hashim, A.R. Daud. Synthesis, magnetic properties and microstructure of Ni–Zn ferrite by sol–gel technique

 

04 февраля 2007 года.

В новом году новое поступление:

1. по физике магнитных жидостей:

1.     Silke Behrens, Helmut Bonnemann, Nina Matoussevitch, Angelika Gorschinski, Eckhard Dinjus, Wilhelm Habicht, Jens Bolle, Svetlana Zinoveva, Natalie Palina, Josef Hormes, Hartwig Modrow, Stephan Bahr and Volker Kempter. Surface engineering of Co and FeCo nanoparticles for biomedical application

2.     B M Berkovsky, V I Kalikmanov and V S Filinov. On a statistical theory of magnetic fluids

3.     P R Bissell, R W Chantrell and P A Bates. Cavity field measurements in magnetic fluids

4.     Jose Alberto Galicia, Olivier Sandre, Fabrice Cousin, Dihya Guemghar, Christine Menager and Valerie Cabuil. Designing magnetic composite materials using aqueous magnetic fluids

5.     Xuebo Cao and Li Gu. Spindly cobalt ferrite nanocrystals: preparation, characterization and magnetic properties

6.     R W Chantrell, A Bradbury, J Popplewell and S W Charles. Particle cluster configuration in magnetic fluids

7.     S R Hoon, J Popplewell and S W Charles. The solid-liquid transition in mercury based magnetic fluids

8.     P Davies and J Popplewell. Particle size analysis of micrometresized particles using liquids

9.     T S Dixon, S W Charles and J Popplewell. The effect of the addition of antimony on the physical and magnetic properties of iron particles in mercury

10. P C Fannin, B K P Scaife and S W Charles. High-frequency-band resonance in magnetic fluids

11. P C Fannin, C N Marin, V Socoliuc, G M Istratuca and A T Giannitsis. The effect of colloidal stabilization upon ferrimagnetic resonance in magnetic fluids in the presence of a polarizing magnetic field

12. P C Fannin, P A Perov and S W Charles. Complex susceptibility measurements of magnetic fluids over the frequency range 50 MHz to 18 GHz

13. P C Fannin and S W Charles. Measurement of the Nee1 relaxation of magnetic particles in the frequency range 1 kHz to 160 MHz

14. P C Fannin and S W Charles. On the calculation of the Nee1 relaxation time in uniaxial single-domain ferromagnetic particles

15. P C Fannint, T Relihant and S W Charlest. Investigation of ferromagnetic resonance in magnetic fluids by means of the short-circuited coaxial line technique

16. P C Fannin, B K P Scaife and S W Charles. The field dependence of the complex frequency-dependent susceptibility of magnetic fluids

17. P C Fannin, S W Charles and T Relihan. Broad-band measurement of the complex susceptibility of magnetic fluids

18. S R Hoon, J Popplewell and S W Charles. The solid-liquid transition in mercury based magnetic fluids

19. S R Hoon and B K Tanner. Magnetic fluids

20. D Horvath and P KopEansky. The magnetic susceptibility of chain structures of high-Tc superconductive particles dispersed in magnetic fluids

21. M Zahn. Magnetic fluids

22. Stuart W Charles. Magnetic fluids

23. D Ito, H Kikura, M Aritomi and Y Takeda. Mode bifurcation control of a magnetic fluid on Taylor-Couette vortex flow with small aspect ratio

24. P H Borse, JMYi, J H Je, S D Choi, Y Hwu, P Ruterana and G Nouet. Formation of magnetic Ni nanoparticles in x-ray irradiated electroless solution

25. G A Jones. Aggregation of water-based magnetic liquids observed with the polarising microscope

26. Andreas Kaiser, Thorsten Gelbrich and Annette M Schmidt. Thermosensitive magnetic fluids

27. P C Fannin, C NMarin and I Malaescu. The influence of particle concentration and polarizing field on the resonant behaviour of magnetic fluids

28. J C Dabadie, P Fabre, M Veyssiу, V Cabuil and R Massart. Magnetic lyotropic phases

29. G Meriguet, E Dubois, M Jardat, A Bourdon, G Demouchy, V Dupuis, B Farago, R Perzynski and P Turq. Understanding the structure and the dynamics of magnetic fluids: coupling of experiment and simulation

30. Galal M. Moatimid. Stability Properties of Ferromagnetic Fluids in the Presence of an Oblique Field and Mass and Heat Transfer

31. M Hanson, C Johansson, M S Pedersen and S Morup. The influence of particle size and interactions on the magnetization and susceptibility of nanometre-size particles

32. Robert Muller, Rudolf Hergt, Silvio Dutz, Matthias Zeisberger and Wolfgang Gawalek. Nanocrystalline iron oxide and Ba ferrite particles in the superparamagnetism–ferromagnetism transition range with ferrofluid applications

33. S Odenbach. Magnetic fluids – suspensions of magnetic dipoles and their magnetic control

34. J D Parsons. Sound velocity in a magnetic fluid

35. F Gazeau, F Boue, E Dubois and R Perzynski. Static and quasi-elastic small angle neutron scattering on biocompatible ionic ferrofluids: magnetic and hydrodynamic interactions

36. J Popplewell. Technological applications of ferrofluids

37. C Gollwitzer, I Rehberg and R Richter. Via hexagons to squares in ferrofluids: experiments on hysteretic surface transformations under variation of the normal magnetic field

38. J Popplewell and R E Rosensweig. Magnetorheological fluid composites

39. B K P Scaife. On the low-field, low-frequency susceptibility of magnetic fluids

40. A Skumiel, M Labowski and T Hornowski. The effect of magnetic field on the anisotropy of the ultrasonic attenuation in magnetic liquids

41. D Vincent, L Jorat, J Monin and G Noyel. Improvement of the transmission/reflection method for dielectric and magnetic measurements on liquids between 0.1 and 20 GHz

42. Nihad A Yusuf. Field and concentration dependence of chain formation in magnetic fluids

2. по физике магнитных частиц:

1.     G S Agarwal, S Dattagupta and K P N Murthy. Relaxation behaviour of single-domain magnetic particles

2.     Paola R Arias, DAltbir and M Bahiana. Geometric aspects of the dipolar interaction in lattices of small particles

3.     R Robin Flaker. Sinal magnetite and direction finding

4.     D V Berkov and N L Gorn. Susceptibility of the disordered system of fine magnetic particles: a Langevin-dynamics study

5.     D V Berkov and R Kotitz. Irreversible relaxation behaviour of a general class of magnetic systems

6.     Jack Blitz. Nondestructive testing using electromagnetic instrumentation

7.     By J. G. Booth and J. Crangle. Magnetic Properties of Mixed Femtes. Superparamagnetism and Exchange Anisotropy in a Cobalt-Zinc Ferrite

8.     Jose Alberto Galicia, Olivier Sandre, Fabrice Cousin, Dihya Guemghar, Christine Menager and Valerie Cabuil. Designing magnetic composite materials using aqueous magnetic fluids

9.     J C Dabadie, P Fabre, M Veyssie, V Cabuil and R Massart. Magnetic lyotropic phases

10. R. Carey. Magnetostatic energies of spherical particles

11. S H Cartmell, A Keramane, G R Kirkham, S B Verschueren, J L Magnay, A J El Haj and J Dobson. Use of magnetic particles to apply mechanical forces for bone tissue engineering purposes

12. Andrejs Cebers. Dynamics of a chain of magnetic particles connected with elastic linkers

13. I Chado, J P Bucher, DKechrakos and K N Trohidou. Tunable magnetic properties of cluster assembled films grown from low temperature co-depositions

14. Xu Chen, Hui Pak-Ming. Switching Behaviour of Magnetic Particles with Dipolar Interaction

15. Xu Chen, Ma Yu-Qiang, Hui Pak-Ming. Microstructures in Strongly Interacting Dipolar Fluids

16. A M Afanasev and M A Chuev. Mossbauer spectra of single-domain particles with rotating magnetic moments

17. R P Cowburn. Property variation with shape in magnetic nanoelements

18. R P Cowburn, A O Adeyeye and M E Welland. Controlling magnetic ordering in coupled nanomagnet arrays

19. M A Espy, C Carr, J H Sandin, C J Hanson, S G Daniels, A N Matlachov, S W Graves, M D Ward and R H Kraus, Jr, S Fritz and D Leslie-Pelecky. SQUID-Based Bioassay with Magnetic Particles in Flow

20. M E Evans. Nanophase magnetism and past global change

21. M I Faley, U Poppe, V Yu Slobodchikov, Yu Vmaslennikov and K Urban. A high temperature superconductor dc SQUID planar gradiometer measurement system for routine inspections

22. J M Fallon, C A Faunce and P J Grundy. The structure and properties of sputter-deposited Co–Si alloy thin films

23. P C Fannint and S W Charlesf. Measurement of the Nee1 relaxation of magnetic particles in the frequency range 1 kHz to 160 MHz

24. P C Fannint, A Molinat and S W Chariest. On the generation of complex susceptibility data through the use of the Hilbert transform

25. P C Fannint, S W Charlest and T Relihant. On the use of complex susceptibility data to complement magnetic viscosity measurements

26. P C Fannin, B K P Scaife and S W Charles. High-frequency-band resonance in magnetic fluids

27. Josef Fidler and Thomas Schrefl. Micromagnetic modelling—the current state of the art

28. V A Froltsov,C N Likos and H Lowen. Colloids in inhomogeneous external magnetic fields: particle tweezing, trapping and void formation

29. R Gerber. Theory of particle capture in axial filters for high gradient magnetic separation

30. Michael Giersig and Michael Hilgendorff. The preparation of ordered colloidal magnetic particles by magnetophoretic deposition

31. M Grimsditch and P Vavassori. The diffracted magneto-optic Kerr effect: what does it tell you?

32. Valter Strom, Kjell Hultenby, Cordula Gruttner, Joachim Teller, Bo Xu and Jan Holgersson. A novel and rapid method for quantification of magnetic nanoparticle–cell interactions using a desktop susceptometer

33. M E Hayden and U O Hafeli. ‘Magnetic bandages’ for targeted delivery of therapeutic agents

34. P Josephs-Franks, L Hao, A Tzalenchuk, J Davies, O Kazakova, J C Gallop, L Brown and J C Macfarlane. Measurement of the spatial sensitivity of miniature SQUIDs using magnetic-tipped STM

35. R K W Haselwimmer. The formation of Ditchev's rings

36. Moresi Giorgio, Beat Meier, Richard Magin and Ernst Meyer. Magnetic damping losses of tipped cantilevers

37. M S Pedersen, S Morup, S Linderoth, C Johansson and M Hanson. Inter-particle interactions and the magnetocaloric effect in a sample of ultrafine Fe1−xHgx particles in Hg

38. M Hanson, C Johansson and S Morup. Zero-field cooled magnetization of amorphous Fe-C, particles-field dependence of the maximum

39. F. R. Muirhead. A torsion balance for magnetic measurements on individual small particles

40. V P Nascimento, E C Passamani, A Y Takeuchi, C Larica and E Nunes. Single magnetic domain precipitates of Fe/Co and Fe and Co in Cu matrix produced from (Fe–Co)/Cu metastable alloys

41. Kevin O’Grady. Biomedical applications of magnetic nanoparticles

42. V Franco, X Batlle, A Labarta and K O’Grady. The nature of magnetic interactions in CoFe–Ag(Cu) granular thin films

43. R W Chantrell, K O'Grady, A Bradbury, S W Charles and J Popplewell. The isothermal remanent magnetisation of fine magnetic particles

44. A A Carneiro, O Baffa and R B Oliveira. Study of stomach motility using the relaxation of magnetic tracers

45. T G St Pierre, P R Clark, W Chua-anusorn, A Fleming, H Pardoe, G P Jeffrey, J K Olynyk, P Pootrakul, S Jones, P Moroz. Non-invasive measurement and imaging of tissue iron oxide nanoparticle concentrations in vivo using proton relaxometry

46. Hongting Pu and Fengjing Jiang. Towards high sedimentation stability: magnetorheological fluids based on CNT/Fe3O4 nanocomposites

47. Xiao-Bing Wang and Fu-Cho Pu. Interference in spin tunnelling of small magnetic particles

48. Zvi Rigbi. On the possibility of pumping a suspension of magnetic particles by means of a moving magnetic field

49. Ovidiu Rotariu, Iain D Ogden, Marion MacRae, Laura Elena Udrea and Norval J C Strachan. Multiple sample flow through immunomagnetic separator for concentrating pathogenic bacteria

50. Laura Elena Udrea, Norva J C Strachan, Vasile Badescu and Ovidiu Rotariu. An in vitro study of magnetic particle targeting in small blood vessels

51. F de los Santos, M Tasinkevych, JMTavares and P I C Teixeira. Deposition of magnetic particles: a computer simulation study

52. Raksha Sharma, Subhalakshmi Lamba and S Annapoorni. Magnetic properties of polypyrrole-coated iron oxide nanoparticles

53. A Skumiel. The effect of temperature on the anisotropy of ultrasound attenuation in a ferrofluid

54. Shinji Katsura, Takao Yasuda, Ken Hirano, Akira Mizuno and Saburo Tanaka. Development of a new detection method for DNA molecules

55. S Taulu and J Simola. Spatiotemporal signal space separation method for rejecting nearby interference in MEG measurements

56. J Tejada, E M Chudnovsky, E del Barco, JMHernandez and T P Spiller. Magnetic qubits as hardware for quantum computers

57. K N Trohidou and D Kechrakos. Magnetization behaviour of small particle aggregates

58. C A Viddal and R M Roshko. Ageing and memory in the relaxation dynamics of collections of two-level subsystems

59. J Wagner, B Fischer, T Autenrieth and R Hempelmann. Structure and dynamics of charged magnetic colloids

60. Ping Chen,RXWu, Tianen Zhao, Fan Yang and John Q Xiao. Complex permittivity and permeability of metallic magnetic granular composites at microwave frequencies

61. Haiwen Xi, Kai-Zhong Gao, Yiming Shi and Song Xue. Precessional dynamics of single-domain magnetic nanoparticles driven by small ac magnetic fields

62. Xin-E Yang and Xiao-Mei Dai. Size effect on giant magnetoresistance in magnetic granular films

63. R H Yu, X X Zhang, J Tejada, M Knobel, P Xberto and P Allia. Magnetic properties and giant magnetoresistance in melt-spun COl5CUSS alloys

64. Z D Zhang, F Wang, J He, T Zhao, M G Wang, D K Xiong, D Y Geng, X G Zhao, M H Yu and W Liu. Effects of B addition on giant magnetoresistance in Co–Cu granular ribbons

65. Wei Ping Wu, Bin Yuan Zhao, QingWu, Le Sheng Chen and Ke Ao Hu. The strengthening effect of guar gum on the yield stress of magnetorheological fluid

26 декабря 2006 года.

У нас новые друзья:

Белорусский национальный технический университет

25 декабря 2006 года.

Поздравляю вас с католичсеким Рождеством. Размещены статьи:

1.     Maria Claudia Ferrari de Castro and Alberto Cliquet. Jr. Artificial grasping system for the paralyzed hand

2.     C.M. Hassan, J.H. Ward, N.A. Peppas. Modeling of crystal dissolution of poly(vinyl alcohol) gels produced by freezing/thawing processes

3.     Sergey G Starodubtsev, Evheniy V Saenko, Maxim E Dokukin, Viktor L Aksenov, Vera V Klechkovskaya, Irina S Zanaveskina and Alexei R Khokhlov. Formation of magnetite nanoparticles in poly(acrylamide) gels

4.     Mohsen Shahinpoor and Kwang J Kim. Ionic polymer–metal composites: I. Fundamentals

5.     R V Ramanujan and L L Lao. The mechanical behavior of smart magnet–hydrogel composites

6.     Stefan Bohlius, Harald Pleiner and Helmut R Brand. Pattern formation in ferrogels: analysis of the Rosensweig instability using the energy method

7.     A Ponton, A Bee, D Talbot and R Perzynski. Regeneration of thixotropic magnetic gels studied by mechanical spectroscopy: the effect of the pH

8.     S. Tepic. Bone biomechanics

9.     D. Szabo, G. Szeghy, and M. Zrinyi. Shape Transition of Magnetic Field Sensitive Polymer Gels

10. Buki, E. Karpati-Smidroczki, M. Zrinyi. Two dimensional chemical pattern formation in gels. Experiments and computer simulation

11. Miklos Zrinyi and Denes Szabo. Muscular contraction mimiced by magnetic gels

12. Vincze, R. Fata, Gy Parlagh, Zrinyi, J. Kertesz and Z. Horvolgh. Kinetic and structural study of interfacial aggregation of microparticles at liquid-air interfaces

13. M. Zrnyi. Intelligent polymer gels controlled by magnetic fields

14. M. Zrinyi, K. Sinko and R. Mezei. Gelation of aluminosilicate systems under different chemical conditions

15. R. Brunner, S. Gall, W. Wilke, M. Zrinyi. Formation of fractal structures by aggregation of anisometric iron (III) hydroxide particles

16. Gy. Torok, V.T. Lebedev, L. Cser, Gy. Kali, M. Zrinyi. Dynamics of PVA-gel with magnetic macrojunctions

17. Miklos Zrinyi. Determinants of adherence behaviors and health outcomes of patients with chronic renal failure

18. R. Brunner, S. Gall, W. Wilke, M. Zrinyi. A dynamic light scattering study on aggregation of rodlike colloidal particles

19. Denes Szabo and Miklos Zrinyi. Nonhomogeneous, non-linear deformation fo polymer gels swollen with magneto-rheological suspensions

20. Gy. Torok, V.T. Lebedev, L. Cser, M. Zrinyi. NSE-study of magnetic phase dynamics in poly(vinylalcohol) ferrogel

21. F. Brochadr-Wyart, P.G. Gennes. Dewetting of a water film between a solid and a rubber

22. Tibor Imre Varga, Genoveva Filipcsei and Gilanyi, Robert Meszaros, Miklos Zrinyi. Characterisation of monodisperse poly(N-isopropylacrylamide) microgel particles

23. M. Zrinyi and F. Horkay. Studies on Mechanical and Swelling Behaviour of Polymer Networks on the Basis of the Scaling Concept. 1. Experiments on Chemically Cross-Linked Poly/Vinyl Acetate/Gels in Swelling Equilibrium with Toluene

24. F. Horkay  and M. Zrinyi. Studies on Mechanical and Swelling Behaviour of Polymer Networks on the Basis of the Scaling Concept. 2. Test of the Scaling Law for the Elastic Modulus of Chemically Different Network Systems

25. M. Zriny and F. Horkay. A new static method to determine the ratio of the shear modulus over the longitudinal ,osmotic modulus for swollen gels

26. M. Zrinyi, H.-G. Kilian, and E Horkay. On the decisive role of finite chain extensibility and global interactions in networks

27. Z. Horvo1gyi, G. Medveczky and M. Zrlnyi. On the structure formation of hydrophobed particles in the boundary layer of water and octane phases

28. W. Haas, M. Zriny, H.-G. Kilian, and B. Heise. Structural analysis of anisometric colloidal iron(III)-hydroxide particles and particle-aggregates incorporated in poly(vinyl-acetate) networks

23 декабря 2006 года.

Размещены статьи:

1.     Курс лекций по физике. Часть 1.

2.     Курс лекций по физике. Часть 2.

3.     Курс лекций по физике. Часть 3.

4.     Курс лекций по физике. Часть 4.

5.     Курс лекций по физике. Часть 5.

6.     Курс лекций по физике. Часть 6.

7.     Курс лекций по физике. Часть 7.

8.     Курс лекций по физике. Часть 8.

9.     Курс лекций по физике. Часть 9.

10. Курс лекций по физике. Часть 10.

11. В.И. Неделько. «Физика. Курс практических занятий». Механика. Часть 1.

12. В.И. Неделько. «Физика. Курс практических занятий». Механика. Часть 2.

13. В.И. Неделько. «Физика. Курс практических занятий». Механика. Часть 3.

14. В.И. Неделько. «Физика. Курс практических занятий». Механика. Часть 4.

15. В.И. Неделько. «Физика. Курс практических занятий». Механика. Часть 5.

16. В.И. Неделько. «Физика. Курс практических занятий». Механика. Часть 6.

17. В.И. Неделько. «Физика. Курс практических занятий». Механика. Часть 7.

18. Молекулярная физика и термодинамика. Часть 1.

19. Молекулярная физика и термодинамика. Часть 2.

20. Молекулярная физика и термодинамика. Часть 3.

21. В.И. Неделько. «Физика. Курс практических занятий». Электродинамика. Часть 1.

22. В.И. Неделько. «Физика. Курс практических занятий». Электродинамика. Часть 2.

23. В.И. Неделько. «Физика. Курс практических занятий». Электродинамика. Часть 3.

24. В.И. Неделько. «Физика. Курс практических занятий». Электродинамика. Часть 4.

25. В.И. Неделько. «Физика. Курс практических занятий». Электродинамика. Часть 5.

26. В.И. Неделько. «Физика. Курс практических занятий». Электродинамика. Часть 6.

27. В.И. Неделько. «Физика. Курс практических занятий». Электродинамика. Часть 7.

21 декабря 2006 года.

С наступающим днем Энергетика! Хочется всех пользователей порадовать.

Создан новый раздел «ОБЩАЯ ТЕОРИЯ». Там размещены статьи:

1.     Л. М. Ковба, В. К. Трунов. Рентгенофазовыи анализ. Главы 1-2.

2.     Л. М. Ковба, В. К. Трунов. Рентгенофазовыи анализ. Главы 3-4.

3.     Л. М. Ковба, В. К. Трунов. Рентгенофазовыи анализ. Глава 5.

4.     Л. М. Ковба, В. К. Трунов. Рентгенофазовыи анализ. Главы 6-7.

5.     Л. М. Ковба, В. К. Трунов. Рентгенофазовыи анализ. Главы 8-9.

6.     Л. М. Ковба, В. К. Трунов. Рентгенофазовыи анализ. Глава 10.

7.     М. Б. Лачинов, Е. В. Черникова. Методические разработки к практическим работам по синтезу высокомолекулярных соединений (часть 1)

8.     М. Б. Лачинов, Е. В. Черникова. Методические разработки к практическим работам по синтезу высокомолекулярных соединений (часть 2)

9.     Биохимия  крови

10. Метаболизм углеводов и его регуляция

11. Соединительная ткань

12. Обмен сложных белков

13. Биохимия костной ткани, тканей зуба, биохимия слюны

14. Строение и свойства ферментов

15. Внемитохондриальное окисление

16. Биохимия питания

17. Биохимия гормонов

18. Биохимия  почек

19. Химия  и  обмен  липидов

20. Биологическое окисление

21. Метаболизм   белков

22. Биохимия  мышечной  ткани

23. Биохимия нервной ткани

24. Химия и обмен  нуклеиновых  кислот

25. Параметаболизм

26. Строение и свойства белков

27. Спецкурс «Аналитическая химия природных сред» для специальности «Экология»

28. Ю. М. Дедков. Современные проблемы аналитической химии сточных вод

29. Б.  В. Григорюк, Г. Л. Майдуков, В. Д. Мартовицкий, Д. П. Родин. Шахтная вода как дополнительный природный ресурс

30. Сточные воды. Интересный экземпляр.

31. Д.И. Григорашев, В.В. Сабуров. Современные методы аналитической химии в экологии

32. Задачи на тему: Состав и  свойства  природных вод.

33. Задачи на тему: Расчеты в  полевых  методах   анализа.

34. Задачи на тему: Расчет результатов анализа биогенных элементов.

01 декабря 2006 года.

Поздравляем Вас с началом новой зимы. В честь этого выкладываем новый материал и открываем раздел «ССЫЛКИ». Присылайте нам интересные ссылки, делитесь информацией с коллегами

1. Андреев Валерий Георгиевич. Краткая справка

2. Андреев В. Г. Регулирование реологических свойств высококонцентрированных дисперсных систем полиэлектролитами.

1.     D. V. Berkov, N. L. Gorn, R. Schmitz and D. Stock. Langevin dynamic simulations of fast remagnetization processes in ferrofluids with internal magnetic degrees of freedom

2.     GM´eriguet, E Dubois, M Jardat, A Bourdon, G Demouchy, V Dupuis, B Farago, R Perzynski and P Turq. Understanding the structure and the dynamics of magnetic fluids: coupling of experiment and simulation

3.     Lavrova, G Matthies, T Mitkova, V Polevikov and L Tobiska. Numerical treatment of free surface problems in ferrohydrodynamics

4.     A Leschhorn, J P Embs and M Lucke. Magnetization of rotating ferrofluids: the effect of polydispersity

5.     Oliver Muller, Dorothea Hahn and Mario Liu. Non-Newtonian behaviour in ferrofluids and magnetization relaxation

6.     Stefan Bohlius, Harald Pleiner and Helmut R Brand. Pattern formation in ferrogels: analysis of the Rosensweig instability using the energy method

7.     C Gollwitzer, I Rehberg and R Richter. Via hexagons to squares in ferrofluids: experiments on hysteretic surface transformations under variation of the normal magnetic field

8.     J Wagner, B Fischer, T Autenrieth and R Hempelmann. Structure and dynamics of charged magnetic colloids

9.     A Wiedenmann, M Kammel, A Heinemann and U Keiderling. Nanostructures and ordering phenomena in ferrofluids investigated using polarized small angle neutron scattering

10. R Jurgons, C Seliger, A Hilpert, L Trahms, S Odenbach and C Alexiou. Drug loaded magnetic nanoparticles for cancer therapy

11. Brunke, S Odenbach, R Jurgons, C Alexiou, I Hilger and F Beckmann. Determination of the magnetic particle distribution in tumour tissue by means of x-ray tomography

12. M Schwalbe, K Pachmann, K Hoffken and J H Clement. Improvement of the separation of tumour cells from peripheral blood cells using magnetic nanoparticles

13. D Eberbeck, FWiekhorst, U Steinhoff and L Trahms. Aggregation behaviour of magnetic nanoparticle suspensions investigated by magnetorelaxometry

14. M E Hayden1 and U O Hafeli. ‘Magnetic bandages’ for targeted delivery of therapeutic agents

15. M T Lopez-Lopez, P Kuzhir, S Lacis, G Bossis, FGonzalez-Caballero and J D G Duran. Magnetorheology for suspensions of solid particles dispersed in ferrofluids

16. Christian Holm, Alexey Ivanov, Sofia Kantorovich, Elena Pyanzina and Evgeniy Reznikov. Equilibrium properties of a bidisperse ferrofluid with chain aggregates: theory and computer simulations

17. Patrick Ilg, Eric Coquelle and Siegfried Hess. Structure and rheology of ferrofluids: simulation results and kinetic models

18. Loredana Mirela Pop and Stefan Odenbach. Investigation of the microscopic reason for the magnetoviscous effect in ferrofluids studied by small angle neutron scattering

19. A Yu Zubarev and L Yu Iskakova. Rheological properties of ferrofluids with microstructures

20. Silke Behrens, Helmut Bonnemann, Nina Matoussevitch, Angelika Gorschinski, Eckhard Dinjus, Wilhelm Habicht, Jens Bolle, Svetlana Zinoveva, Natalie Palina, Josef Hormes, Hartwig Modrow, Stephan Bahr and Volker Kempter. Surface engineering of Co and FeCo nanoparticles for biomedical application

21. Verena Holzapfel, Myriam Lorenz, Clemens KilianWeiss, Hubert Schrezenmeier , Katharina Landfester and Volker Mailander. Synthesis and biomedical applications of functionalized fluorescent and magnetic dual reporter nanoparticles as obtained in the miniemulsion process

22. Robert Muller, Rudolf Hergt, Silvio Dutz, Matthias Zeisberger and Wolfgang Gawalek. Nanocrystalline iron oxide and Ba ferrite particles in the superparamagnetism–ferromagnetism transition range with ferrofluid applications

23. Andreas Kaiser, Thorsten Gelbrich and Annette M Schmidt. Thermosensitive magnetic fluids

10 октября 2006 года.

1. Вашему внимания предлагаются собственноручно изготовленные Кирей П. С. магнитные жидости.

2. Предлагаем вам мемориал Юрия Яковлевича Щелыкалова

3. Также можете ознакомиться со справкой о творческом вкладе Щелыкалова Ю.Я. в работу «Исследование, разработка, освоение производства и применение магнитоуправляемых наножидкостей и новых электромеханических устройств на их основе», выдвинутой на соискание премии Правительства РФ

4. Прочтите Характеристику-представление проректора по научной работе Ивановского государственного энергетического университета доктора технических наук на Щелыкалова

20 сентября 2006 года.

После долгого перерыва вышли в свет снимки:

1.     Фотографии участников Плесских конференций 1986, 1988, 1990 и 2006 годов.

2.     Фотография Андреева Валерия Георгиевича

И текстовый материал:

1.     P.A. van Aken, V.J. Styrsa, B. Liebscher, A.B. Woodland,G.J. Redhammer. Microanalysis of Fe in oxide and silicate minerals by investigation of electron energy-loss near-edge structures(ELNES) at the Fe edge

2.     D. Feng, C. Aldrich, H. Tan. Removal of heavy metal ions by carrier magnetic separation of adsorptive particulates

3.     Souad Ammar, Arnaud Helfen, Noureddine Jouini, Fernand Fievet, Izio Rosenman, FrancÀoise Villain, Philippe Molinie and Michel Danot. Magnetic properties of ultrafine cobalt ferrite particles synthesized by hydrolysis in a polyol medium

4.     Mostafa Taibi, Souad Ammar, Noureddine Jouini, Fernand Fie´vet, Philippe Molinie and Marc Drillon. Layered nickel hydroxide salts: synthesis, characterization and magnetic behaviour in relation to the basal spacing

5.     S Chkoundali, S Ammar, N Jouini, F Fi´evet, PMolini´e, M Danot, F Villain and J-M Greneche. Nickel ferrite nanoparticles: elaboration in polyol medium via hydrolysis, and magnetic properties

6.     L. Poul, S. Ammar, N. Jouini And F. Fievet. Synthesis of Inorganic Compounds (Metal, Oxide and Hydroxide) in Polyol Medium: A Versatile Route Related to the Sol-Gel Process

7.     David Banks, Paul L. Younger, Rolf-Tore Arnesen, Egil R. Iversen, Sheila B. Banks. Mine-water chemistry: the good, the bad and the ugly

8.     M. Rajendran, R.C. Pullar, A.K. Bhattacharya, D. Das, S.N. Chintalapudi, C.K. Majumdar. Magnetic properties of nanocrystalline CoFe₂O₄ powders prepared at room temperature: variation with crystallite size

9.     Everett E. Carpenter. Iron nanoparticles as potential magnetic carriers

10. Everett E. Carpenter. Synthesis of magnetic nanoparticles using reverse micelles. (Dissertation)

11. Bing Tong, Shih-Chi Chang, Everett E. Carpenter, Charles J. O’Connor, Jackson O. Lay Jr., Richard E. Norman. Di-m-halo-bis{[tris(2-pyridylmethyl)amine-k4N]nickel(II)} bis(triethylammonium) tetraperchlorate: Magnetostructural studies

12. Jun Lin. Gold-Coated Iron (Fe-Au) Nanoparticles: Synthesis, Characterization, and Magnetic Field-Induced Self-Assembly

13. P Poddar, J LWilson, H Srikanth, S A Morrison and E E Carpenter. Magnetic properties of conducting polymer doped with manganese–zinc ferrite nanoparticles

14. W.L. Zhou, E.E. Carpenter, J. Lin, A. Kumbhar, J. Sims, and C.J. O'Connor. Nanostructures of gold coated iron core-shell nanoparticles and the nanobands assembled under magnetic field

15. Cynthia Brewer, Greg Brewer, W. Robert Scheidt, Maoyu Shang, Everett E. Carpenter. Synthesis and structural and magnetic characterization of discrete phenolato and imidazolate bridged Gd(III)–M(II) [M‑Cu, Ni] dinuclear complexes

16. Jishan Li, Xiaoxiao He, Zhaoyang Wu, Kemin Wang, Guoli Shen, Ruqin Yu. Piezoelectric immunosensor based on magnetic nanoparticles with simple immobilization procedures

17. G. Zhou, A. Elayssari, T. Delair, C. Pichot. Synthesis and characterization of surface-cyanofunctionalized poly ( N-isopropylacrylamide) latexes

18. L. Zha, J. Hu, C. Wang, S. Wang, S. Fu, A. Elaissari, Y. Zhang. Preparation and of poly (N-isopropylacrylamide-co-dimethylamino-ethyl methacrylate) microgel latexes

19. T. Trimaille, C. Pichot, A. Elayssari, H. Fessi, S. Briancon, T. Delair. Poly(D,L-lactic acid) nanoparticle preparation and colloidal characterization

20. F. Sauzedde, A. Elayssari, C. Pichot. Hydrophilic magnetic polymer latexes. 2. Encapsulation of adsorbed iron oxide nanoparticles

21. F. Sauzedde, A. Elayssari, C. Pichot. Hydrophilic magnetic polymer latexes. 1. Adsorption of magnetic iron oxide nanoparticles onto various cationic latexes

22. P. Hazot, T. Delair, A. Elayssari, J.-P. Chapel, C. Pichot. Functionalization of poly( N-ethylmethacrylamide) thermosensitive particles by phenylboronic acid

23. D. Duracher, F. Sauzedde, A. Elayssari, C. Pichot, L. Nabzar. Cationic amino-containing N-isopropylacrylamide-styrene copolymer particles: 2-surface and colloidal characteristics

24. D. Duracher, F. Sauzedde, A. Elaissari, A. Perrin, C. Pichot. Cationic amino-containing N-isopropylacrylamide-styrene copolymer latex particles: 1-Particle size and morphology vs. polymerization process

25. D. Duracher, A. Elayssari, C. Pichot. Characterization of cross-linked poly( N-isopropylmethacrylamide) microgel latexes

26. Marie-Noelle Erout, Abdelhamid Elayssari, Christian Pichot, Marie-France Llauro. Radical-initiated copolymers of N-vinyl pyrrolidone and N-acryloxy succinimide: kinetic and microsrtucture studies

27. Scarlet Relle , Stanley B. Grant, Costas Tsouris. Diffusional coagulation of superparamagnetic particles in the presence of an external magnetic field

28. Shunchao Gu, Toshiaki Shiratori, Mikio Konno. Synthesis of monodisperse, magnetic latex

29. particles with polystyrene core

30. Yeong Il Kim, Don Kim, Choong Sub Lee. Synthesis and characterization of CoFe₂O₄ magnetic nanoparticles prepared by temperature-controlled coprecipitation method

31. M. Shum, L. Lavkulich. Speciation and solubility relationships of Al, Cu and Fe in solutions associated with sulfuric acid leached mine waste rock

32. M. Shum, L.M. Lavkulich. Use of sample color to estimate oxidized Fe content in mine waste rock

33. Raphael A.J. Wust, R. Marc Bustin, Les M. Lavkulich. New classification systems for tropical organic-rich deposits based on studies of the Tasek Bera Basin, Malaysia

34. M. Kithome, J. W. Paul, L. M. Lavkulich, and A. A. Bomke. Kinetics of Ammonium Adsorption and Desorption by the Natural Zeolite Clinoptilolite

35. G. Yuan, M. Soma, H. Seyama, B.K.G. Theng, L.M. Lavkulich, T. Takamatsu. Assessing the surface composition of soil particles from some Podzolic soils by X-ray photoelectron spectroscopy

36. Ronie J. Calugay, Hideaki Miyashita, Yoshiko Okamura, Tadashi Matsunaga. Siderophore production by the magnetic bacterium Magnetospirillum magneticum AMB-1

37. Tadashi Matsunaga, Yoshiko Okamura and Tsuyoshi Tanaka. Biotechnological application of nano-scale engineered bacterial magnetic particles

38. M. Romero, J. Ma. Rincon. Microstructural characterization of a goethite waste from zinc hydrometallurgical process

39. Ivo Safarik, Mirka Safarikova. Isolation and removal of proteolytic enzymes with magnetic cross-linked erythrocytes

40. Min Wu, Michio Nakano, Jin-Hua She. A model-based expert control system for the leaching process in zinc hydrometallurgy

41. Min Wu, Michio Nakano, Jin-Hua She. A model-based expert control strategy using neural networks for the coal blending process in an iron and steel plant

42. Jennifer Simmons, Paul Ziemkiewicz, D. Courtney Black. Use of stell slag leac beds for the treament of acid mine drainage

43. Monica Sorescu, A. Grabias, D. Tarabasanu-Mihaila, and L. Diamandescu. From Magnetite to Cobalt Ferrite

44. Monica Sorescu, A. Grabias, L. Diamandescu, D. Tarabasanu. Collapse of the Magnetic Hyperfine Structure of Barium Hexaferrite by Mechanochemical Activation

45. Monica Sorescu. Determination of the recoilless fraction in iron oxide nanoparticles using the two-lattice method

46. Monica Sorescu. Mechanochemical activation of magnetite nanoparticles

47. Monica Sorescu, D. Tarabasanu-Mihaila, L. Diamandescu. A Mossbauer study of manganese-doped magnetite

48. Monica Sorescu, A. Grabias, R.A. Brand, J. Voss, D. Tarabasanu-Mihaila, L. Diamandescud. A Mossbauer study of the Verwey transition in cobalt-doped magnetite

49. M. Sorescu, T. Oberst, K. Gossett, D. Tarabasanu, L. Diamandescu. Direct evidence for cobalt substitution effects in magnetite

50. M. Sorescu. Evolution of the Mossbauer recoilless fraction during mechanochemical activation of iron oxides

51. M. Sorescu , R.A. Brand , D. Mihaila-Tarabasanu , L. Diamandescu. Synthesis and magnetic properties of haematite with different particle morphologies

52. M. Soylak, U. Divrikli, L. Elci, M. Dogan. Preconcentration of Cr(III), Co(II), Cu(II), Fe(III) and Pb(II) as calmagite chelates on cellulose nitrate membrane filter prior to their flame atomic absorption spectrometric determinations

53. L. Elci, M. Soylak, A. Uzun, E. Büyükpatir, M. Dogan. Determination of trace impurities in some nickel compounds by flame atomic absorption spectrometry after solid phase extraction using Amberlite XAD-16 resin

54. Ibrahim Narin, Mustafa Soylak, Latif Elci, Mehmet Dogan. Determination of trace metal ions by AAS in natural water samples after preconcentration of pyrocatechol violet complexes on an activated carbon column

55. Ibrahim Narin, Mustafa Soylak. Enrichment and determinations of nickel(II), cadmium(II), copper(II), cobalt(II) and lead(II) ions in natural waters, table salts, tea and urine samples as pyrrolydine dithiocarbamate chelates by membrane filtration–flame atomic absorption spectrometry combination

56. Uzun, M. Soylak, L. Elci. Preconcentration and separation with Amberlite XAD-4 resin; determination of Cu, Fe, Pb, Ni, Cd and Bi at trace levels in waste water samples by flame atomic absorption spectrometry

57. Sibel Saracoglu, Mustafa Soylak, Latif Elci. Separation/preconcentration of trace heavy metals in urine, sediment and dialysis concentrates by coprecipitation with samarium hydroxide for atomic absorption spectrometry

58. Mustafa Soylak, Ugur Sahin, Latif Elci. Spectrophotometric determination of molybdenum in steel samples utilizing selective sorbent extraction on Amberlite XAD-8 resin

59. Mustafa Soylak, Latif Elci, Mehmet Dogan. Spectrophotometric determination of trace amounts of tugsten in geological samples after preconcentration on Amberlite XAD-1180

60. Ibrahim Narin, Mustafa Soylak. The uses of 1-(2-pyridylazo) 2-naphtol (PAN) impregnated Ambersorb 563 resin on the solid phase extraction of traces heavy metal ions and their determinations by atomic absorption spectrometry

61. Mustafa Soylak, Orhan Turkoglu. Spectrophotometric determination of samarium(III) with chrome azurol S in the presence of cetylpyridinium chloride

62. Mariana Sincai, Diana Ganga, Doina Bica, Ladislau Vekas. The antitumor e!ect of locoregional magnetic cobalt ferrite in dog mammary adenocarcinoma

63. N. N. Mallikarjuna, A. Lagashetty and A. Venkataraman. Cobalt ferrite from citrate precursor by self-propagating combustion reaction

64. N.N. Mallikarjuna, A. Venkataraman. Adsorption of Pb₂ ions on nanosized γ-Fe₂O₃: formation of surface ternary complexes on ligand complexation

65. N. N. Mallikarjuna, B. Govindaraj, Arunkumar Lagashetty and A. Venkataraman. Combustion derived ultrafine γ-Fe₂O₃. Structure, morphology and thermal studies

66. M. M. Rahman, A. Venkataraman. Synthesis of γ-Fe₂O₃ by thermal decomposition of ferrous gluconate dihydrate

67. Ananthakrishnan Venkataraman. The generation and characterization of activated carbons from the pyrolysis of cereal grains (dissertation)

68. Andreas Voigt, Norbert Buske, Gleb B. Sukhorukov, Alexei A. Antipov, Stefano Leporatti, H. Lichtenfeld, Hans Baumler, Edwin Donath, Helmuth Mohwald. Novel polyelectrolyte multilayer micro- and nanocapsules as magnetic carriers

69. Shizhong Wang, Houwen Xin, Yitai Qian. Preparation of nanocrystalline Fe₃O₄ by γ-ray radiation

70. Shizhong Wang, Houwen Xin. The γ-irradiation-induced chemical change from β-FeOOH to Fe₃O₄

26 июня 2006 года.

У нас большое пополнение:

1.     Левченко С. И. Физическая и коллоидная химия. Курс лекций

2.     Киселев В. Я. Коллоидная химия. Конспект лекций

3.     Успенская И.А. Конспект лекций по физической химии

А также графический материал:

1.     Строение коллоидной мицеллы

2.     Строение Геля и Золя

3.     Эффект Тиндаля

27 мая 2006 года.

Поздравляю всех нас с Днём Химика и желаю всем нам процветания.

Опубликован запрос на закупку магнитной жидкости правительства Узбекистана

07 мая 2006 года.

Поздравляю вас с Днём Радио и с наступающим Днём Победы. В базе новые поступления:

1.           Naletova V. A., Kim L. G., Turkov V. A. Hydrodynamics of a horizontally rotating thin magnetizable liquid film

2.           V. A. Naletova, V. A. Turkov, Y. M. Shkel, D. J. Klingenberg. Model of a magnetizable elastic material

3.           Vera A. Naletova, Alexandr S. Kvitantsev, Vladimir A. Turkov. Movement of a magnet and a paramagnetic body inside a vessel with a magneticfluid

4.           V. A. Naletova, A. S. Kvitantsev. Thermomagnetic force acting on an ellipsoidal body immersed into a nonuniformly heated magnetic liquid

5.           K. Zimmermann, I. Zeidis, V. A. Naletova, V. A. Turkov. Waves on the surface of a magnetic fluid layer in a traveling magnetic field

6.           Г. В. Карпова, О. В. Лобова, В. М. Пауков, М. В. Чистяков, В. М. Полунин. Акустические эффекты на магнитных жидкостях

7.           В. М. Полунин, М.В. Чистяков. Акустомагнитный эффект на магнитной жидкости в поперечном магнитном поле

8.           В. М. Полунин, Г. В. Карпова, В. В. Коварда. Колебательная система с магнитожидкостным инертно-вязким элементом

9.           А. В. Карелин, В. М. Полунин. Модуляция ультразвукового импульса намагниченной магнитной жидкостью

10.       В. М. Полунин, Г. В. Карпова, В. В. Коварда. Об эффективной вязкости и пондеромоторной упругости магнитной жидкости

31 марта 2006 года.

Приглашаем Вас принять участие в Юбилейной XX международной школе-семинаре «Новые магнитные материалы микроэлектроники» (НМММ-20)

22 марта 2006 года.

Сегодня обновлено содержимое статьи "Борисенко О. В. О возможности несимметричной релаксации намагниченности в связи с проблемой агрегатизации однодоменных частиц малого и среднего размера в магнитной жидкости"

18 марта 2006 года.

Доброго времени суток, господа! Сейчас вышло новое крупное дополнение к обзору. Пользуйтесь!

1.     F. T. Parker, F. E. Spada, A. E. Berkowitz, K. S. Vecchio, E. J. Lavernia, R. Rodriguez. Thick amorphous ferromagnetic coatings via thermal spraying of spark-eroded powder

2.     F. T. Parker, F. E. Spada, T. J. Cox, A. E. Berkowitz. Mossbauer effect study of metal particle tape stability.

3.     E. Berkowitz, M. F. Hansen, F. T. Parker, K. S. Vecchio, F. E. Spada, E. J. Lavernia, R. Rodriguez. Amorphous soft magnetic particles produced byspark erosion

4.     E. Berkowitz, R. H. Kodama, Salah A. Makhlouf, F. T. Parker, F. E. Spada, E. J. McNi Jr, S. Foner. Anomalous properties of magnetic nanoparticles

5.     S. Sankar, D. Dender, J. A. Borchers, David J. Smith, R. W. Erwin, S. R. Kline, A. E. Berkowitz. Magnetic correlations in non-percolated CoSiO₂ granular slms

6.     E. Berkowitz, Kentaro Takano. Exchange anisotropy

7.     Dieny, S. Sankar, M. R. McCartney, D. J. Smith, P. Bayle-Guillemaud, A. E. Berkowitz. Spin-dependent tunneling in discontinuous metal/insulator multilayers

 

8.     J. S. Jiang, S. D. Bader, H. Kaper, G. K. Leaf, R. D. Shull, A. J. Shapiro, V. S. Gornakov, V. I. Nikitenko, C. L. Platt, A. E. Berkowitz, S. David, E. E. Fullerton. Rotational hysteresis of exchange-spring magnets

9.     S. B. Slade, Leon Gunter, F. T. Parker, Ami E. Berkowitz. Determination of the energy barrier distribution and prefactor for switching in a hetergeneous magnetic system

10. D. Lin, A. C. Nunes, C. F. Majkrzak, A. E. Berkowitz. Polarized neutron study of the magnetization density distribution within a CoFe₂O₄ colloidal particle II

11. Gh. Iaco, O. Rotariu N. J. C. Strachan and U. O. Hafeli. Magnetizable needles and wires – modeling an efficient way to target magnetic microspheres in vivo

12. W. Schutt, C. Gruttner, U. Hafeli, M. Zborowski, J. Teller, H. Putzar, C. Schumichen. Applications of magnetic targeting in diagnosis and therapy-possibilities and limitations: a mini-review

13. Urs Hafeli, Siobhan M. Sweeney, Beverly A. Beresford, John L. Humm And Roger M. Macklis. Effective Targeting of Magnetic Radioactive microspheres to Tumor Cells by an Externally Applied Magnetic Field. Preliminary In Vitro and In Vivo Results

14. Urs Hafeli. Radioactive Microspheres for Medical Applications

15. U. O. Hafeli. Magnetically modulated therapeutic systems

16. Jinquan Cao, Yongxian Wang, Junfeng Yu, Jiaoyun Xia, Chunfu Zhang, Duanzhi Yin, Urs O. Hafeli. Preparation and radiolabeling of surface-modified magnetic nanoparticles with rhenium-188 for magnetic targeted radiotherapy

17. Urs O. Hafeli, Junfeng Yu, Farhad Farudi, Yuhua Li, Gilles Tapolsky. Radiolabeling of magnetic targeted carriers (MTC) with indium-111

18. J. F. Yu, U. O. Hafeli, Y. Dong, M. J. Sands, Y. H. Li, S. Failing, T. Leakakos, G. Tapolsky. Radiolabeling of magnetic targeted carriers with several therapeutic and imaging radioisotopes

19. U. O. Hafeli, R. Ciocan, J. P. Dailey. Characterization of magnetic particles and microspheres and their magnetophoretic mobility using a digital microscopy method

20. S. Rudershausen, U. O. Hafeli, C. Grüttner, J. Teller. Novel chelator containing particles specific for controlled radioisotope delivery

21. Edward A. Evans, Urs Hafeli, Ram Wusirika, and Philip W. Morrison. Diamond Like Carbon Coatings for Rhenium Wires and Foils

22. William K. Roberts, Urs O. Hafeli. Modeling rhenium-186 and rhenium-188 distribution in a neutron-activated rhenium wire and effect of the distribution on beta dosimetry in a water phantom

23. M. Koneracka, P. Kopcansky, M. Timko, C. N. Ramchand, A. de Sequeira, M. Trevan. Direct binding procedure of proteins and enzymes to fine magnetic particles

24. M. Koneracka, P. Kopcansky, M. Antalmk, M. Timko, C. N. Ramchand, D. Lobo, R. V. Mehta, R. V. Upadhyay. Immobilization of proteins and enzymes to fine magnetic particles

25. M. Koneracka, P. Kopcansky, M. Timko, C. N. Ramchand. Direct binding procedure of proteins and enzymes to fine magnetic particles

26. P. C. Fannin S. W. Charles P. Kopcansky, M. Timko, V. Ocelik, M. Koneracka L. Tomco I. Turek, J. Stelina, C. Musil. A comparative study of the determination of ferrofluid particle size by means of rotational Brownian motion and translational Brownian motion

27. Safarik, L. Ptackova, M. Koneracka, M. Safarikova, M. Timko, P. Kopcansky. Determination of selected xenobiotics with ferrofluid-modified trypsin

28. P. Kopcansky, M. Koneracka, I. Potocova, M. Timko L. Tomco J. Jadzyn, G. Czechovs. The structural transitions in liquid crystals doped with fine magnetic particles

29. Potocova,P. Kopcansky,M. Koneracka,L. Tomco,M. Timko, J. Jadzyn,G. Czechowski. The structural instabilities in ferronematics and ferrosmectics

30. P. Kopcansky, P. Macko, M. Koneracka, V. Zavislova. Magneto-dielectric behaviour of concentrated magnetic fluid

31. P. V. Hendriksen, F. Bodker, S. Linderoth, S. Wells, S. Morup. Ultrafine maghemite particles: I. Studies of induced magnetic texture

32. P. V. Hendriksen, F. Bodker, S. Linderoth, C. A. Oxborrow, S. Morup. Ultrafine maghemite particles: II. The spin-canting effect revisited

33. F. Bodker, S. Morup, S. W. Charles, S. Linderoth. Surface oxidation of cobalt nanoparticles studied by Mossbauer spectroscopy

34. L. TheilKuhn, A. Bojesen, L. Timmermann, M. Meedom Nielsen S. Morup. Structural and magnetic properties of core–shell iron–iron oxide nanoparticles

35. F. Bodker, S. Morup, C. A. Oxborrow, S. Linderoth, M. B. Madsen, J. W. Niemantsverdriet. Mossbauer studies of ultrafine iron-containing particles on a corbon support

36. M. F. Hansen, F. Bodker, S. Morup, C. Djurberg, P. Svedlindh. Magnetic properties of non-intercting Fe-C nanoparticles

37. Johansson, M. Hanson, M. S. Pedersen, S. Morup. Magnetic properties of magnetic liquids with iron-oxide particles - the influence of anisotropy and interactions

38. S. Music, G. P. Santana, G. Smit, V. K. Garg. ₅₇Fe Mossbauer, FT–IR and TEM investigations of Fe-oxide powders obtained from concentrated FeCl solutions

39. S. Music, M. Maljkovic, I. Czako-Nagy. Effect of urea on the hydrosis of Fe3+ ions in aqueous solutions at elevated temperature

40. S. Music, A. Saric, S. Popovic. Effects of urotropin on the formation of B-FeOOH

41. S. Music, I. Czako-Nagy, I. Salaj-Obelic, N. Ljubesic. Formation of A-Fe₂O₃ particles in aqueous medium and their properties

42. Grzeta , M. Ristic, I. Nowik , S. Music. Formation of nanocrystalline magnetite by thermal decomposition of iron choline citrate

43. S. Music, M. Gotic, N. Ljubesic. Influence of sodium polyanethol sulphonate on the morphology of B-FeOOH particles obtained from the hydrolysis of a FeCl₃ solution

44. S. Music, S. Krehula, S. Popovic, Z. Skoko. Some factors influencing forced hydrolysis of FeCl₃ solutions

45. S. Krehula, S. Popovic, S. Music. Synthesis of acicular a-FeOOH particles at a very high pH

46. Dirk Schuler. Nanokristalle fur die Magnetfeldorientierung: Biomineralisation von Magnetosomen in Bakterien

47. Daniel Schultheiss, · Dirk Schüler. Development of a genetic system for Magnetospirillum gryphiswaldense

48. Schuler. The biomineralization of magnetosomes in Magnetospirillum gryphiswaldense

49. Karen Grunberg, Cathrin Wawer, Bradley M. Tebo, Dirk Schuler. A large gene cluster encoding several magnetosome proteins is conserved in different species of magnetotactic bacteria

50. Dirk Schuler. Formation of magnetosomes in magnetotactic bacteria

51. Schuler, R. B. Frankel. Bacterial magnetosomes: microbiology, biomineralization and biotechnological applications

52. Christine B. Flies, Henk M. Jonkers, Dirk de Beer, Katja Bosselmann, Michael E. Bo ttcher, Dirk Schuler. Diversity and vertical distribution of magnetotactic bacteria along chemical gradients in freshwater microcosms

53. Christine B. Flies, Jorg Peplies, and Dirk Schuler. Combined approach for characterization of uncultivated magnetotactic bacteria from various aquatic environments

54. Daniel Schultheiss, Rene Handrick, Dieter Jendrossek, Marianne Hanzlik, Dirk Schuler. The presumptive magnetosome protein mms16 is a poly(3-hydroxybutyrate) granule-bound protein (phasin) in magnetospirillum gryphiswaldense

55. Daniel Schultheiss, Michael Kube, Dirk Schuler. Inactivation of the flagellin gene flaa in magnetospirillum gryphiswaldense results in nonmagnetotactic mutants lacking flagellar filaments

56. Karen Grunberg, Eva-Christina Muller, Albrecht Otto, Regina Reszka, Dietmar Linder, Michael Kube, Richard Reinhardt, Dirk Schuler. Biochemical and Proteomic Analysis of the Magnetosome Membrane in Magnetospirillum gryphiswaldense

57. Dirk Schuler. Molecular analysis of a subcellular compartment: the magnetosome membrane in Magnetospirillum gryphiswaldense

58. Sabrina Schubbe, Michael Kube, Andre Scheffel, Cathrin Wawer, Udo Heyen, Anke Meyerdierks, Mohamed H. Madkour, Frank Mayer, Richard Reinhardt, and Dirk Schuler. Characterization of a spontaneous nonmagnetic mutant of magnetospirillum gryphiswaldense reveals a large deletion comprising a putative magnetosome island

59. U. Heyen, D. Schuler. Growth and magnetosome formation by microaerophilic Magnetospirillum strains in an oxygen-controlled fermentor

09 марта 2006 года.

Вот и крупномасштабное поступление материалов с конференции в Дрездене:

1.     Ch. Alexiou, R. Jurgons, C. Seliger, O. Brunke, S. Odenbach, A. Hess, F. Wiekhorst, D. Eberbeck, L. Trahms, H. Iro. Nanoparticle-distribution after Magnetic Drug Targeting

2.     M.V.Avdeev, M.Balasoiu, V.L.Aksenov, Gy.Torok, L.Rosta, V.M.Garamus, A.Schreyer, D.Bica, L.Vekas. Interaction effect in ferrofluids by small-angle neutron scattering

3.     Volker Becker, Andreas Engel. Thermal ratchet effect in ferrofluids with mean-field interaction

4.     Doina Bica, M.V. Avdeev, Oana Marinica, V.M.Garamus, L. Vekas. Magnetic nanofluids with mixed surfactant layers

5.     V.T.Lebedev, Gy.Torok, L.Vekas. Ferrofluid dynamics by ODD and EVEN Neutron Spin Echo studied

6.     H. Bonnemann, S. Behrens, and N. Matoussevitch. Airstable Cobalt-, Iron-, and Iron/Cobalt Nanocolloids and Ferrofluids

7.     H. Bonnemann, S. Behrens, E.Dinjus, N. Matoussevitch. Metallic Co, Fe, and Fe/Co-Alloy Magnetic Fluids for Technical Applications

8.     S. Bohlius, H.R. Brand and H.Pleiner. Macroscopic dynamics of magnetic gels –

9.     surface waves and Rosensweig instability

10. D. Borin, V. Mikhailov. Hydraulic positioning actuators with magnetorheology control

11. Bozhko, Yu. Bratukhin, G. Putin. Convection in a Spherical Ferrofluid Cavity in the Presence of Homogeneous Magnetic Fields

12. O. Brunke, R. Jurgons, C. Alexiou, I. Hilger and S. Odenbach. Synchrotron tomography as a tool for the analysis of magnetic particle distribution in tumor tissue

13. A.Cebers, M.Ozols. Dynamics of an active magnetic particle in a rotating magnetic field

14. R.W Chantrell and A Satoh. Self-organisation of colloidal particles: Future magnetic recording media

15. Eric Coquelle, Patrick Ilg, Siegfried Hess. More accurate predictions of ferrofluids’ rheology

16. D.E. Creanga, G. Matei, N. Apetroaie. Atomic Force Microscopy in the ferrofluid microstructural investigation

17. S. Dunca, D. E. Creanga, Z. Olteanu, Fl. M. Tufescu. Human body intestinal flora under the influence of microwaves and ferrofluids

18. J. P. Embs, M. Lucke. Measuring the transverse magnetization of rotating ferrofluids

19. Andreas Engel. Rectification of thermal fluctuations in ferrofluids

20. B.H. Erne. Microstructure and Magnetism of Monodisperse Magnetite Ferrofluids

21. Wolf-Gerrit Fruh. Thermomagnetic convection in a central force field

22. Christian Gollwitzer, Holger Knieling, Gunnar Mathies and Reinhard Richter. The Surface Relief of the Rosensweig Instability — Quantitative Comparison of Experimental and Numerical Results

23. G.F. Goya, E. Lima Jr., M. S. Lancarotte and M. R. Ibarra. Magnetic Structure and Power Absorption in Magnetite Nanoparticles from a MRI Contrast Agent.

24. F.Herchl, P.Kopcansky, K.Marton, L.Tomco, M.Timko, M.Koneracka, V. Zavisova, I.Potocova. Insulating properties of oil based magnetic liquids

25. J.P. Huang, Z. Wang, C. Holm. Computer simulations of the structure of colloidal ferrofluids

26. Patrick Ilg, Eric Coquelle, and Siegfried Hess. Rheology and structure of ferrofluids from simulations: some steps towards a more microscopic understanding

27. L.Iskakova, A.Zubarev. Domain structures in thin channels with ferrofluids

28. S.S. Kantorovich, C. Holm, A.O. Ivanov, E.S. Pyanzina. Equilibrium Properties of a Bidispersed Ferrofluid with Chain Aggregates: Theory and Computer Simulations

29. M. Krekhova, G. Lattermann. Thermoreversible Ferrogels

30. O. Lavrova, G. Matthies, L. Tobiska. Numerical simulation of a soliton-like surface configuration

31. V.T.Lebedev, Gy.Torok, L.Vekas. Ferrofluid dynamics by ODD and EVEN Neutron Spin Echo studied

32. Oliver Muller and Mario Liu. Macroscopic Account of Ferrofluid Rheology

33. O.B. Kuznetsova, A.O. Ivanov, B. Huke, M. Lucke. Magneto-Granulometric Analysis of Concentrated Ferrofluids

34. H. Bonnemann, S. Behrens, E.Dinjus, N. Matoussevitch. Metallic Co, Fe, and Fe/Co-Alloy Magnetic Fluids for Technical Applications

35. V. Mekhonoshin. Weakly non-linear analysis of the Faraday instability on a ferrofluid in a vertical magnetic field

36. V.S. Mendelev, A.O. Ivanov. An Influence of Chain Aggregates on Magnetic Properties of Monodisperse Ferrofluids

37. S. Monz, A. Tschope, R. Birringer. Magnetoelastic behavior of a ferrogel in a homogeneous magnetic field

38. E.V. Novak, A.O. Ivanov. Phase Separation of Polydisperse Ferrofluids

39. J. Patzke, B. Rathke, and S. Will. Dynamic Light Scattering on Magnetite-Based Ferrofluids

40. Andrey Ryskin and Harald Pleiner. Thermal convection in ferrofluids with negative separation ratio

41. L. M. Pop, S. Odenbach, A. Wiedenmann. Structure formation in cobalt-based ferrofluids, investigated by small angle neutron scattering

42. D. A. Usanov, Al. V. Skripal, An. V. Skripal, A. E. Postelga, Yu. L. Raikher, V. I. Stepanov. The effect of temperature on reflection of a magnetic fluid in the ultra high frequency range.

43. Dirk Rannacher, Andreas Engel. Preventing the Rayleigh-Taylor instability in ferrofluids

44. M. Schwalbe, M. Vetterlein, C. Jorke, K. Pachmann, K. Hoffken, J.H. Clement. Controlling the interaction of magnetic nanoparticles with human cells

45. Hamid Shahnazian, Stefan Odenbach. Controlled shear stressed rheological investigations of ferrofluids

46. Mark Shliomis, Michael Zaks. Ferrofluid Torsional Pendulum: New Facets of Negative Viscosity

47. V. V. Sokolov. Slow Magnetosonic Wave Propagating in a Magnetizable Fluids

48. J. Stelina, C.Musil, J. Bracinik, M. Timko, P. Kopcansky, M. Koneracka. Structuralization in magnetic fluids after light illumination

49. B. Surguladze, N. Gribanov, T. Tskitishvili. Bactericidal and anti-inflammation characteristics of preparation “Unimag”

50. Szalai, S. Dietrich. Solid-fluid interfacial properties of model ferrofluids

51. H. Urreta, N. Murillo, M. M. Bou-Ali. Overview of the ferrofluids synthesis for mechanical applications

52. A.E. Virden, S. Wells and K. O’Grady. Ferrofluids with High Anisotropy Particles

53. F. Wiekhorst, D. Eberbeck, U. Steinhoff, R. Jurgons, C. Seliger, C. Alexiou, L. Trahms. Quantification of magnetic nanoparticles in tissue demonstrated by magnetorelaxometry tomography

54. K. Zimmermann, I. Zeidis, V.A. Naletova, V.A. Turkov, F.S. Bayburtskiy, M.V. Lukashevich, V. Bohm. Elastic Capsule Filled with Magnetic Fluid in an Alternative Magnetic Field

55. A.Zubarev, L.Iskakova. Rheological properties of ferrofluids with bulk internal structures

22 февраля 2006 года.

Поступила аннотация ученых из Санкт-Петербургского Политехнического Университета:

     1.            Saint-Petersburg State Politechnical University. Metallurgical Faculty. Material Science Department. Sintesis of metallic nanopowders by chemical vapor condensation (CVC) process

08 декабря 2005 года.

К нам поступила работа ученых Северо-Кавказского Государственного Технического Университета (кстати, я там учился, на электротехническом факультете) в двух вариантах – на русском языке и в английской (переводной) версии:

1.     Kozhevnikov V. M., Chuenkova I. Yu., Danilov M. I., and Yastrebov S. S. Self-organization in a layer of magnetic fluid in strong electric fields

2.     Кожевников В. М., Чуенкова И. Ю., Данилов М. И., Ястребов С. С. Самоорганизация слоя магнитной жидкости в сильных электрических полях

29 ноября 2005 года.

Опубликованы работы, высланные господином Губиным С. П.:

1.     Gubin S.P., Yurkov G.Yu., Korobov M.S., Koksharov Yu.A., Kozinkin A.V., Pirog I.V., Zubkov S.V., Kitaev V.V., Sarichev D.A., Bouznik V.M., Tsvetnikov A.K. Immobilization of metal-containing nanoparticles on the surface of polytetrafluoroethylene nanogranules

2.     Gubin S.P., Spichkin Yu.I., Koksharov Yu.A., Yurkov G.Yu., Kozinkin A.V., Nedoseikina T.I., Korobov M.S., Tishin A.M. Magnetic and structural properties of Co nanoparticles in a polymeric matrix

3.     Gudoshnikov S., Liubimov B., Matveets L., Ranchinski M., Usov N., Gubin S., Yurkov G., Snigirev O., Volkov I. Magnetic properties of Fe-based nanoparticle assembly

4.     Юрков Г. Ю., Губин С. П., Панкратов Д. А., Кокшаров Ю. А., Козинкин А. В., Спичкин Ю. И., Недосейкина Т. И., Пирог И. В., Власенко В. Г. Наночастицы оксида железа (III) в матрице полиэтилена.

5.     Коробов М. С., Юрков Г. Ю., Козинкин А. В., Кокшаров Ю. А., Пирог И. В., Зубков С. В., Китаев В. В., Сарычев Д. А., Бузник В. М., Цветников А. К., Губин С. П. Новый наноматериал: металлсодержащий политетрафторэтилен

6.     Koksharov Yu. A., Gubin S. P., Kosobudsky I. D., Yurkov G. Yu., Pankratov D. A., Ponomarenko L. A., Mikheev M. G., Beltran M., Khodorkovsky Y., Tishin A. M. Electron paramagnetic resonance spectra near the spin-glass transition in iron oxide nanoparticles

7.     Gubin S. P., Spichkin Y. I., Yurkov G. Yu., Tishin A. M. Nanomaterial for High-Density Magnetic Data Storage

8.     Губин С. П., Кокшаров Ю. А., Хомутов Г. Б., Юрков Г. Ю. Магнитные наночастицы: методы получения, строения и свойства

05 ноября 2005 года.

В базу добавлены работы:

1.     Ovidiu Rotariu, Norval J.C. Strachan. Modelling magnetic carrier particle targeting in the tumor microvasculature for cancer treatment

2.     Ovidiu Rotariu, Iain D. Ogden, Marion MacRae, Vasile Badescu, Norval J.C. Strachan. An immunomagnetic separator for concentration of pathogenic micro-organisms from large volume samples

3.     Rudt C., Scherz A., Baberschke K. Oscillatory Curie temperature in ultrathin ferromagnets: experimental evidence

4.     Ivo Safarik, Mirka Safarikova, Frantisek Weyda, Ewa Mosiniewicz-Szablewska, Anna Slawska-Waniewska. Ferrofluid-modified plant-based materials as adsorbents for batch separation of selected biologically active compounds and xenobiotics

5.     Mirka Safarikova, Ivanna Kibrikova, Lucie Ptackova, Tomas Hubka, Karel Komarek, Ivo Safarik. Magnetic solid phase extraction of non-ionic surfactants from water

6.     Detlef Muller-Schulte, T. Schmitz-Rode, Paul Borm. Ultra-fast synthesis of magnetic and luminescent silica beads for versatile bioanalytical applications

7.     Manuela Schwalbe, Cornelia Jorke, Norbert Buske, Klaus Hoffken, Katharina Pachmann, Joachim H. Clement. Selective reduction of the interaction of magnetic nanoparticles with leukocytes and tumor cells by human plasma

8.     Satoshi Seino, Takuya Kinoshita, Yohei Otome, Takashi Nakagawa, Kenji Okitsu, Yoshiteru Mizukoshi, Tadachika Nakayama, Tohru Sekino, Koichi Niihara, Takao A. Yamamoto. Gamma-ray synthesis of magnetic nanocarrier composed of gold and magnetic iron oxide

9.     Daniela Eniu, Dana Cacaina, Marin Coldea, Mihaela Valeanu, Simion Simon. Structural and magnetic properties of CaO-P₂O₅-SiO₂-Fe₂O₃ glass-ceramics for hyperthermia

10. Ece Simsek, Mehmet Akif Kilic. Magic ferritin: A novel chemotherapeutic encapsulation bullet

11. Mariana Sincai, Diana Ganga, Marius Ganga, Diana Argherie, Doina Bica. Antitumor effect of magnetite nanoparticles in cat mammary adenocarcinoma

12. Hua Xu, Tao Song, Xiuqi Bao, Lili Hu. Site-directed research of magnetic nanoparticles in magnetic drug targeting

13. Daniela Sudfeld, Inga Ennen, Andreas Hutten, Ute Golla-Schindler, Heiner Jaksch, Gunter Reiss, Daniel MeiXner, Klaus Wojczykowski, Peter Jutzi, Wahib Saikaly, Gareth Thomas. Microstructural investigation of ternary alloyed magnetic nanoparticles

14. Patricia P. Macaroff, Daniela M. Oliveira, Karina F. Ribeiro, Zulmira G.M. Lacava, Emilia C.D. Lima, Paulo C. Morais, Antonio C. Tedesco. Studies of cell toxicity of complexes of magnetic fluids and biological macromolecules

15. Mark Tondra, Anthony Popple, Albrecht Jander, Rachel L. Millen, Nikola Pekas, Marc D. Porter. Microfabricated tools for manipulation and analysis of magnetic microcarriers

16. M. Carmen Bautista, Oscar Bomati-Miguel, Maria del Puerto Morales, Carlos J. Serna, Sabino Veintemillas-Verdaguer. Surface characterisation of dextran-coated iron oxide nanoparticles prepared by laser pyrolysis and coprecipitation

17. Shan X. Wang, Seung-Young Bae, Guanxiong Li, Shouheng Sun, Robert L. White, Jennifer T. Kemp, Chris D. Webb. Towards a magnetic microarray for sensitive diagnostics

18. Anirban Chaudhuri, Norman M. Wereley, Sanjay Kotha, Ramachandran Radhakrishnan, Tirumalai S. Sudarshan. Viscometric characterization of cobalt nanoparticle-based magnetorheological fluids using genetic algorithms

19. Francesca Carpino, Lee R. Moore, Maciej Zborowski, Jeffrey J. Chalmers, P. Stephen Williams. Analysis of magnetic nanoparticles using quadrupole magnetic field-flow fractionation

20. Kyoungja Woo, Jangwon Hong, Jae-Pyoung Ahn. Synthesis and surface modification of hydrophobic magnetite to processible magnetite-silica-propylamine

21. Zefeng Xia, Guobin Wanga, Kaixiong Taoa, Jianxing Lib. Preparation of magnetite–dextran microspheres by ultrasonication

22. Benjamin B. Yellen, Zachary G. Forbes, Derek S. Halverson, Gregory Fridman, Kenneth A. Barbee, Michael Chorny, Robert Levy, Gary Friedman. Targeted drug delivery to magnetic implants for therapeutic applications

23. Chunfu Zhang, Hanwen Sun, Jiaoyun Xia, Junfeng Yu, Side Yao, Duanzhi Yin, Yongxian Wang. Synthesis of polyacrylamide modified magnetic nanoparticles and radiolabeling with ¹⁸⁸Re for magnetically targeted radiotherapy

26 октября 2005 года.

В базу в раздел "Теоретические основы" добавлен обзорный материал Губин С. П., Кокшаров Ю. А., Хомутов Г. Б., Юрков Г. Ю. Магнитные наночастицы: методы получения, строение, свойства.

17 октября 2005 года.

В базу добавлено:

1.     Brandon Howard McNaughton, Jeffrey N. Anker, Raoul Kopelman. Magnetic microdrill as a modulated fluorescent pH sensor

2.     Lucie Korecka, Jana Jezova, Zuzana Bilkova, Milan Benes, Daniel Horak, Olga Hradcova, Marcela Slovakova, Jean-Louis Viovy. Magnetic enzyme reactors for isolation and study of heterogeneous glycoproteins

3.     Marcela Gonzales, Kannan M. Krishnan. Synthesis of magnetoliposomes with monodisperse iron oxide nanocrystal cores for hyperthermia

4.     Maria Helena Araujo Guedes, Neda Sadeghiani, Danielle Lima Guedes Peixoto, Ju. lia Poubel Coelho, Luzirlane Santos Barbosa, Ricardo Bentes Azevedo, Selma Ku. ckelhaus, Maria de Fatima Da Silva, Paulo Cesar Morais, Zulmira Guerrero Marques Lacav. Effects of AC magnetic field and carboxymethyldextran-coated magnetite nanoparticles on mice peritoneal cells

5.     Patrick Winter, Phillip Athey, Garry Kiefer, Gyongyi Gulyas, Keith Frank, Ralph Fuhrhop, David Robertson, Samuel Wickline, Gregory Lanza. Improved paramagnetic chelate for molecular imaging with MRI

6.     Hyo Sook Lee, Eun Hee Kim, Huiping Shao, Byung Kook Kwak. Synthesis of SPIO-chitosan microspheres for MRI-detectable embolotherapy

7.     Hao Shanga, Perry M. Kirkham, Tina M. Myers, Gail H. Cassell, Gil U. Lee. The application of magnetic force differentiation for the measurement of the affinity of peptide libraries

8.     Dong-Hyun Kim, Se-Ho Lee, Kyoung-Nam Kim, Kwang-Mahn Kim, In-Bo Shim, Yong-Keun Lee. Temperature change of various ferrite particles with alternating magnetic field for hyperthermic application

9.     Xianqiao Liu, Yueping Guan, Huizhou Liu, Zhiya Ma, Yu Yang, Xiaobing Wu. Preparation and characterization of magnetic polymer nanospheres with high protein binding capacity

10. Chengli Yang, Huizhou Liu, Yueping Guan, Jianmin Xing, Junguo Liu, Guobin Shan. Preparation of magnetic poly(methylmethacrylate–divinylbenzene–glycidylmethacrylate) microspheres by spraying suspension polymerization and their use for protein adsorption

11. Frank Ludwig, Erik Heim, Sascha Mauselein, Dietmar Eberbeck, Meinhard Schilling. Magnetorelaxometry of magnetic nanoparticles with fluxgate magnetometers for the analysis of biological targets

12. Merissa S. Marius, Patrick A.B. James, AbuBakr S. Bahaj, David J. Smallman. Development of a highly magnetic iron sulphide for metal uptake and magnetic separation

13. Mischa Megens, Menno Prins. Magnetic biochips: a newoption for sensitive diagnostics

14. Carol J. Mertz, Michael D. Kaminski, Yumei Xie, Martha R. Finck, Sandra Guy, Axel J. Rosengart. In vitro studies of functionalized magnetic nanospheres for selective removal of a simulant biotoxin

15. Christian Mikkelsen, Mikkel Fougt Hansen, Henrik Bruus. Theoretical comparison of magnetic and hydrodynamic interactions between magnetically tagged particles in microfluidic systems

16. Castro L.L., M.F. da Silva, A.F. Bakuzis, R. Miotto. Aggregate formation on polydisperse ferrofluids: A Monte Carlo analysis

17. Winfried Moller, Shinji Takenaka, Norbert Buske, Kathrin Felten, Joachim Heyder. Relaxation of ferromagnetic nanoparticles in macrophages: In vitro and in vivo studies

18. Paulo C.Morais, Judes G.Santos, K.Skeff Neto, Fernando Pelegrini, Marcel De Cuyper. Magnetic resonance of magnetic fluid and magnetoliposome preparations

19. Olga Mykhaylyk, Nataliya Dudchenko, Alexandre Dudchenko. Doxorubicin magnetic conjugate targeting upon intravenous injection into mice: High gradient magnetic field inhibits the clearance of nanoparticles from the blood

20. Olga Mykhaylyk, Anatoliy Kotzuruba, Nataliya Dudchenko, Gyula Torok. Signal transduction by erythrocytes on specific binding of doxorubicin immobilized on nanodispersed magnetite

21. Iku Nemoto, Kazuhisa Kawamura. Cytomagnetometric study of interactions between microfilaments and microtubules by measuring the energy imparted to magnetic particles within the cells

22. Engelmann S., A. Nethe, Th. Scholz, H.-D. Stahlmann. Concept of a new type of electric machines using ferrofluids

23. Nethe A., Th. Scholz, H.-D. Stahlmann. Theoretical evaluation of the ferrofluid-driven electric machine

24. Nguyen H. Hai, Raymond Lemoine, Shaina Remboldt, Michelle Strand, Jeffrey E. Shield, David Schmitter, Robert H. Kraus, Jr. Michelle Espy, Diandra L. Leslie-Pelecky. Iron and Cobalt-based magnetic fluids produced by inert gas condensation

25. Ulrike Schillinger, Thomas Brill, Carsten Rudolph, Stephanie Huth, Soren Gersting, Florian Krotz, Johannes Hirschberger, Christian Bergemann, Christian Plank. Advances in magnetofection — magnetically guided nucleic acid delivery

26. Tatyana Polyakova, Vitalii Zablotskii. Magnetization processes in magnetotactic bacteria systems

27. Nicolae Calin Popa, Ali Siblini, Chadi Nader.  ‘‘P’’ curves for micro-structural characterization of magnetic suspensions

28. Nikola Pekas, Michael Granger, Mark Tondr, Anthony Popple, Marc D. Porter. Magnetic particle diverter in an integrated microfluidic format

16 октября 2005 года.

В базу добавлено:

1.     Havva Ya ci Acar, Rachel S. Garaas, Faisal Syud, Peter Bonitatebus, Amit M. Kulkarni. Superparamagnetic nanoparticles stabilized bypoly merized PEGylated coatings

2.     Christoph Alexiou, Roland Jurgons, Roswitha Schmid, Andrea Hilpert, Christian Bergemann, Fritz Parak, Heinrich Iro. In vitro and in vivo investigations of targeted chemotherapy with magnetic nanoparticles

3.     Javed Ally,Benjamin Martin,Mir Behrad Khamesee, Wilson Roa,Alidad Amirfazli. Magnetic targeting of aerosol particles for cancer therapy

4.     Monica Pereira Garcia, Renata Miranda Parca, Sacha Braun Chaves, Luciano Paulino Silva, Antonio Djalma Santos, Zulmira Guerrero Marques Lacava, Paulo Ce. sar Morais, Ricardo Bentes Azevedo. Morphological analysis of mouse lungs after treatment with magnetite-based magnetic fluid stabilized with DMSA

5.     Peter Babinec, Mela. nia Babincova, Paul Sourivong, Danuta Leszczynska. Efficient treatment of pigmented B16 melanoma using photosensitized long-circulating magnetofullerenosomes

6.     Ritu D. Ambashta, Seikh Mohammad Yusuf, Mayuresh D. Mukadam, Sher Singh, Piaray Kishan Wattal, Dhirendra Bahadur. Physical and chemical properties of nanoscale magnetite-based solvent extractant

7.     Jyotsnendu Giri, Sanjukta Guha Thakurta, Jayesh Bellare,Arun Kumar Nigam, Dhirendra Bahadur. Preparation and characterization of phospholipid stabilized uniform sized magnetite nanoparticles

8.     Yuping Bao, Kannan M. Krishnan. Preparation of functionalized and gold-coated cobalt nanocrystals for biomedical applications

9.     Aranzazu del Campo,Tapas SenaJean-Paul Lellouche,Ian J. Bruce. Multifunctional magnetite and silica–magnetite nanoparticles: Synthesis,surface activation and applications in life sciences

10. Jhunu Chatterjee, Martin Bettge, Yousef Haik, Ching Jen Chen. Synthesis and characterization of polymer encapsulated Cu–Ni magnetic nanoparticles for hyperthermia applications

11. Horia Chiriac, Anca-Eugenia Moga, Gheorghe Iacob, Ostin C. Mungiu. Amorphous magnetic microspheres for biomedical applications

12. Horia Chiriac, Mihai Tibu, Anca-Eugenia Moga, Dumitru D. Herea. Magnetic GMI sensor for detection of biomolecules

13. Ilioara Coroiu, Victor Cristea. Proton NMR relaxivity of blood samples in the presence of iron, gadolinium and dysprosium compounds

14. Hassen Dakhlaoui, Sihem Jaziri. Theoretical study of the magnetoresistance under electric field in III–Vdiluted magnetic semiconductor

15. Stephane Mornet, Josik Portier, Etienne Duguet. A method for synthesis and functionalization of ultrasmall superparamagnetic covalent carriers based on maghemite and dextran

16. Louise Ejsing, Mikkel F. Hansen, Aric K. Menon, Hugo A. Ferreira, Daniel L. Graham, Paulo P. Freitas. Magnetic microbead detection using the planar Hall effect

17. Raphael Veyret, Thierry Delair, Abdelhamid Elaissari. Preparation and biomedical application of layer-by-layer encapsulated oil in water magnetic emulsion

18. Geir Fonnum, Christer Johansson, Astrid Molteberg, Steen Morupc, Elin Aksnes. Characterisation of Dynabeadss bymagnetization measurements and Mo. ssbauer spectroscopy

19. Feng Gao, Bi-Feng Pan, Wei-Ming Zheng, Li-Mei Ao, Hong-Chen Gu. Study of streptavidin coated onto PAMAM dendrimer modified magnetite nanoparticles

20. Bi-Feng Pan, Feng Gao, Li-Mei Ao. Investigation of interactions between dendrimer-coated magnetite nanoparticles and bovine serum albumin

21. Alain Roch, Yves Gossuin, Robert N. Muller, Pierre Gillis. Superparamagnetic colloid suspensions: Water magnetic relaxation and clustering

22. Jyotsnendu Giri, Theerdhala Sriharsha, Saket Asthana, Tumkur K. Gundu Rao, Arun K. Nigam, Dhirendra Bahadur. Synthesis of capped nanosized Mn_1-xZnxFe₂O₄ (0<x<0.8) by microwave refluxing for bio-medical applications

23. Andrew D. Grief, Giles Richardson. Mathematical modelling of magnetically targeted drug delivery

24. Cordula Gru. ttner, Volker Bo. hmer, Alessandro Casnati, Jean-Franc-ois Dozold David N. Reinhoudte Marta M. Reinoso-Garcia, Sandra Rudershausen, Joachim Teller, Rocco Ungaro, Willem Verboom, Pingshan Wang. Dendrimer-coated magnetic particles for radionuclide separation

25. Xuman Wang, Hongchen Gu, Zhengqiang Yang. The heating effect of magnetic fluids in an alternating magnetic field

26. Weiming Zheng, Feng Gao, Hongchen Gu. Carboxylated magnetic polymer nanolatexes: Preparation, characterization and biomedical applications

27. Lucia Gutierrez, Maria del Puerto Morales, Francisco Jose. Lazaro. Magnetostructural study of iron sucrose

28. Urs Hafeli. Preface

29. Urs O. Hafeli, Martin A. Lobedann, Julia Steingroewer, Lee R. Moore, Judy Riffle. Optical method for measurement of magnetophoretic mobility of individual magnetic microspheres in defined magnetic field

30. Rudolf Hergt, Robert Hiergeist, Matthias Zeisberger, Dirk Schuler, Udo Heyen, Ingrid Hilger, Werner A. Kaiser. Magnetic properties of bacterial magnetosomes as potential diagnostic and therapeutic tools

31. Ingrid Hilger, Rudolf Hergt, Werner A. Kaiser. Towards breast cancer treatment by magnetic heating

32. Noriyuki Hirota, Tomohiro Takayama, Eric Beaugnon, Yuki Saito, Tsutomu Ando, Hiroyuki Nakamura, Souma Hara, Yasuhiro Ikezoe, Hitoshi Wada, Koichi Kitazawa. Control of structures of feeble magnetic particles by utilizing induced magnetic dipoles

33. Karl Holschuh, Achim Schwammle. Preparative purification of antibodies with protein A—an alternative to conventional chromatography

34. Andreas Hutten, Daniela Sudfeld, Inga Ennen, Gunter Reiss, Klaus Wojczykowski, Peter Jutzi. Ferromagnetic FeCo nanoparticles for biotechnology

35. Arkadiusz Jozefczak. Acoustic properties of PEG biocompatible magnetic fluid under perpendicular magnetic field

36. Michael D. Kaminski, Axel J. Rosengart. Detoxification of blood using injectable magnetic nanospheres: A conceptual technology description

37. Ji-Ho Park, Ki-Hyeong Im, Se-Ho Lee, Dong-Hyun Kim, Doug-Youn Lee, Yong-Keun Lee, Kwang-Mahn Kim, Kyoung-Nam Kim. Preparation and characterization of magnetic chitosan particles for hyperthermia application

38. Takuya Kinoshita, Satoshi Seino, Yoshiteru Mizukoshi, Yohei Otome, Takashi Nakagawa, Kenji Okitsu, Takao A. Yamamoto. Magnetic separation of amino acids by gold/iron-oxide composite nanoparticles synthesized by gamma-ray irradiation

39. Martina Koneracka, Peter Kopcansky, Pavol Sosa, Jaroslava Bagelova, Milan Timko. Interliposomal transfer of crystal violet dye from DPPC liposomes to magnetoliposomes

40. Jeffrey N. Anker, Caleb J. Behrend, Hongmei Huang, Raoul Kopelman. Magnetically-modulated optical nanoprobes (MagMOONs) and systems

41. Raoul Kopelman, Yong-Eun Lee Koo, Martin Philbert, Bradford A. Moffat, G. Ramachandra Reddy, Patrick McConville, Daniel E. Hall, Thomas L. Chenevert, Mahaveer Swaroop Bhojani, Sarah M. Buck, Alnawaz Rehemtulla, Brian D. Ross. Multifunctional nanoparticle platforms for in vivo MRI enhancement and photodynamic therapy of a rat brain cancer

42. Teresa Gail Roberts, Jeffrey N. Anker, Raoul Kopelman. Magnetically modulated optical nanoprobes (MagMOONs) for detection and measurement of biologically important ions against the natural background fluorescence of intracellular environments

15 октября 2005 года.

Новое поступление:

Боговалов С. В. Моделирование динамики электролита в алюминиевом электролизере.

12 октября 2005 года.

В базу добавлены следующие работы:

1.     Филиппов В. И.,  Ершов О. Л.,  Жигалин Г. Я., Иванов П. К.,  Блохин Д. Ю.,  Голенкина Е. А. Микросферы  широкого  биомедицинского  назначения: способы  получения и  области  применения

2.     Иванов П. К., Голенкина Е. А., Блохин Д. Ю.,  Ларин М. Ю., Филиппов В. И. Иммуномагнитные  сорбенты  в  онкологии

3.     Байбуртский Ф. С., Гончаров Л. A., Брусенцов Н. А. Получение  магнитоуправляемых  носителей для  биомедицинских  исследований

4.     Брусенцов Н. А., Комиссарова Л. Х., Байбуртский Ф. С. Магнитоуправляемые  биологические  препараты  для диагностики  и  терапии  онкологических  заболеваний

5.     Брусенцов Н. А., Байбуртский Ф. С., Шумаков Л. И., Брусенцова Т. Н., Полянский В. А., Холопов В. Л. Индуктор  высокочастотных  колебаний  для  гипертермии  и магнитосенсибилизации  опухолей  магнитными  жидкостями

6.     Комиссарова Л. Х., Филиппов В. И., Гончаров Л. А., Попова Т. С.,  Кутушов М. В., Мартынов А. Н., Брусенцов Н. А., Байбуртский Ф. С. Детоксикация  организма  с  использованием магнитоуправляемых  сорбентов

21 сентября 2005 года.

1. Ура! Появилась очень важная вещь – возможность поиска по сайту, ибо вручную разобраться среди сотен статей стало тяжело. Поиск существует как в русской версии сайта, так и в английской.

2. Урс Хафели передал анонсы ближайших конференций, что пройдут в ноябре-декабре 2005 года.

10 сентября 2005 года.

1. Ловите ещё персоналии:

1.     Pedro Tartaj. Instituto de Ciencia de Materiales de Madrid, CSIC, Campus de Cantoblanco, Madrid, Spain.

2.     Urs Hafeli. Assistant Professor. Division of Pharmaceutics and Biopharmaceutics. Faculty of Pharmaceutical Sciences. The University of British Columbia, Vancouver, Canada.

А также ловите программу Московского симпозуима по магнетизму (июнь 2005):

Program of Moscow International Symposium on Magnetism. Dedicated to the 250th anniversary of M.V.Lomonosov Moscow State University. June 25-30, 2005

06 сентября 2005 года.

В раздел ГАЛЕРЕЯ помещены новые фотографии:

1.     Участники конференции 1996 года в Ростоке (Германия)

2.     Участники конференции 1998 года в Кливлэнде

3.     Участники конференции 2000 года в Ростоке

4.     Участники конференции 2002 года в Таллахасси

5.     Участники конференции 2004 года в Лионе

31 августа 2005 года.

Поздравляю Вас и нас с наступающим днем знаний и надвигающейся осенью.

В базу добавлены следующие работы:

1.     International scientific conference magnetic fluids in medicine and biology. Georgia, Tbilisi, 05-10 June 2005.

2.     Professor, dr. Med. Sc. Scientific laboratory preparation unimag Besik V. Surguladze. Scientific laboratory «Magnetic fluids in medicine and biology».

3.     Professor Besik V. Surguladze. Suspensio magnetite

01 июля 2005 года.

Хочу поздравить Вас и нас с годовщиной открытой конференции. Присоединяйтесь!

14 июня 2005 года.

В базу добавлена работа:

J. Loffler, G. Kostorz, A. Wiedenmann, W. Wagner. Superparamagnetism versus exchange anisotropy in nanostructured Fe and Co: A SANS study at ambient and cryogenic tenperatures

11 июня 2005 года.

В базу добавлены работы:

1.     V. L. Aksenov, M. V. Avdeev, M. Balasoiu, D. Bica, L. Rosta, Gy. Torok, L. Vekas. Aggregation in non-ionic water-based ferrofluids by small-angle neutron scattering

2.     M. Rasa, D. Bica, A. Philipse, L. Vekas. Dilution series approach for investigation of microstructural properties and particle interactions in high-quality magnetic fluids

3.     M. I. Piso, L. Vekas. Magnetic fluid composites and tools for microgravity experiments

4.     N. C. Popa, I. Potencz, I. Anton, L. Vekas. Magnetic liquid sensor for very low gas flow rate with magnetic flow adjusting possibility

5.     Doina Bica, L. Vekas, M. Rasa. Preparation and magnetic properties of concentrated magnetic fluids on alcohol and water carrier liquids

08 июня 2005 года.

1. У нас для Вас появилась интересная фотография Парижской конференции 1993 года, любезно предоставленная Байбуртским Ф. С.

2. В базу добавлены работы:

1.     Raul Pozas, Manuel Ocana, M. Puerto Morales, Pedro Tartaj, Nuria O Nunez2, Carlos J. Serna. Synthesis of acicular Fe–Co nanoparticles and the effect of Al addition on their magnetic properties

2.     V. Aksenov, M. Avdeev, M. Balasoiu, L. Rosta, G. Török, L. Vekas, D. Bica, V. Garamus, J. Kohlbrecher. SANS study of concentration effect in magnetite /oleic acid/ benzene ferrofluid

3.     M. Avdeev, M. Balasoiu, Gy. Torok, D. Bica, L. Rosta, V. L. Aksenov, L.Vekas. SANS study of particle concentration influence on ferrofluid nanostructure

4.     N. C. Popa, I. Potencz, L. Brostean, L. Vekas. Some applications of inductive transducers with magnetic liquids

5.     Mariana Sincai, Diana Ganga, Doina Bica, Ladislau Vekas. The antitumor effect of locoregional magnetic cobalt ferrite in dog mammary adenocarcinoma

6.     L. Vekas, Doina Bica, Dana Gheorghe, I. Potencz, M. Rasa. Concentration and composition dependence of the rheological behaviour of some magnetic fluids

7.     N. C. Popa, I. De Sabata, I. Anton, I. Potencz, L. Vekas. Magnetic fluids in aerodynamic measuring devices

8.     R. Muller, R. Hiergeist, W. Gawalek, A. Hoell, A. Wiedenmann. Magnetic and structural investigations on barium hexaferrite ferrofluids

9.     J. Marcin, A. Wiedenmann, I. Skorvanek. Magnetic nanostructures in FeNbB studied by small-angle neutron scattering

10. Albrecht Wiedenmann. Small-angle neutron scattering investigations of magnetic nanostructures and interfaces using polarized neutrons

11. A. Wiedenmann, A. Hoell, M. Kammel. Small-angle scattering investigations of cobalt-ferrofluids using polarised neutrons

12. M. Kammel, A. Hoell and A. Wiedenmann. Structure of magnetite ferrofluids investigated by sans with polarized neutrons

13. A. Hoell, A. Wiedenmann, U. Lembke, R. Kranold. The non-magnetic surface of magnetic particles in nanostructured glass ceramics studied by SANS

07 июня 2005 года.

1. У нас появился полный выпуск научного журнала "Journal of Magnetism and Magnetic Materials" - Volume 293, Issue 1 - Proceedings of the Fifth International Conference on Scientific and Clinical Applications of Magnetic Carriers - 20-22 May 2004

2. В базу добавлены работы:

1.     R. E. Rosensweig. Heating magnetic fluid with alternating magnetic field

2.     S. P. Bhatnagar, Ronald E. Rosensweig. Introduction to the magnetic fluids bibliography

3.     J. Popplewelly and R. E. Rosensweig. Magnetorheological fluid composites

 

4.     J. Popplewell, R. E. Rosensweig, J. K. Siller. Magnetorheology of ferrofluid composites

5.     R. E. Rosensweig. Role of internal rotations in selected magnetic fluid applications

6.     R. E. Rosensweig. Theory for stabilization of magnetic colloid in liquid metal

7.     Mirka Šafarikov, Ivo Šafarik. Determination of proteolytic activity with magnetic dye-stained gelatine

8.     Milan Patzak, Pavel Dostalek, Robert V. Fogarty, Ivo Safarik and John M. Tobin. Development of magnetic biosorbents for metal uptake

9.     Ivo Šafarik, Lucie Ptackova, Mirka Šafarikova. Large-scale separation of magnetic bioaffinity adsorbents

10. Ivo Safarik, Mirka Safarikova. Magnetic nanoparticles and biosciences.

11. Mirka Šafarikova, Ivo Šafarik. One-step partial purification of Solanum tuberosum tuber lectin using magnetic chitosan particles

12. Ivo Šafarik, Pavel Mucha, Jiri Pechoc, Jaroslav Stoklasa, Mirka Šafarikova. Separation of magnetic affinity biopolymer adsorbents in a Davis tube magnetic separator

13. I. Šafarik, L. Ptackova, M. Koneracka, M. Šafarikova, M. Timko, P. Kopcansky. Determination of selected xenobiotics with ferrofluid-modified trypsin

14. Mark I. Shliomis, Boris L. Smorodin. Convective instability of magnetized ferrofluids

15. Mark I. Shliomis. Maxwell's equations and vorticity: A note on the viscosity of magnetic fluids

16. A. F. Pshenichnikov, A. V. Lebedev, M. I. Shliomis. On the rotational effect in nonuniform magnetic fluids

17. Konstantin I. Morozov and Mark I. Shliomis. Ferrofluids: flexibility of magnetic particle chains

18. Andrzej Skumiel, Mariusz Kaczmarek. Continuous wave methods applied in determining the velocity of fast ultrasonic wave in saturated porous media

19. A. Jozefczak, A. Skumiel, M. Łabowski. Effects of the sweep rate of the magnetic field on the changes of ultrasonic wave velocity in magnetic fluid

20. A. Jozefczak, M. Łabowski, A. Skumiel. Hysteresis of changes of ultrasonic wave absorption coefficient in a magnetic fluid caused by the magnetic field

21. A. Skumiel, M. Labowski, T. Hornowski. The effect of magnetic field on the anisotropy of the ultrasonic attenuation in magnetic liquids

22. A. Skumiel, A. Jozefczak, T. Hornowski, M. Łabowski. The influence of the concentration of ferroparticles in a ferrofluid on its magnetic and acoustic properties

23. S. Sudo, K. Ise, T. Ikohagi. Interfacial phenomena of magnetic fluid adsorbed to two magnets subjected to vertical vibration

 

29 мая 2005 года.

Поздравляю Вас (и нас) с Днем Химика!!!

В базу добавлены работы:

1.     M. Rasa, B. W. M. Kuipers, and A. P. Philipse. Atomic force microscopy and magnetic force microscopy study of model colloids

2.     K. Butter, A. P. Philipse, G. J. Vroege. Synthesis and properties of iron ferrofluids

3.     T. P. Raming, A. J. A. Winnubst, C. M. van Kats, and A. P. Philipse. The Synthesis and Magnetic Properties of Nanosized Hematite (α-Fe₂O₃) Particles

4.     G. A. van Ewijk, G. J. Vroege, B. W. M. Kuipers, A. P. Philipse. Thermodynamic (in)stability of ferrofluid–polymer mixtures

5.     Liesbeth N. Donselaar, Peter M. Frederik, Paul Bomans, Paul A. Buining, Bruno M. Humbel, Albert P. Philipse. Visualisation of particle association in magnetic fluids in zero-field

6.     G. A. van Ewijk, G. J. Vroege, A. P. Philipse. Convenient preparation methods for magnetic colloids

7.     K. Butter, P. H. Bomans, P. M. Frederik, G. J Vroege and A. P. Philipse. Direct observation of dipolar chains in ferrofluids in zero field using cryogenic electron microscopy

8.     B. J. de Gans, C. Blom, J. Mellema, A.P. Philipse. Preparation and magnetisation of a silica-magnetite inverse ferrofluid

9.     M. Rasa, A. P. Philipse. Scanning probe microscopy on magnetic colloidal particles

10. Albert P. Philipse, Sebastiaan G. J. M. Kluijtmans. Sphere caging by a random fibre network

11. G. H  Koenderink, A. P. Philipse and S. G. J. M. Kluijtmans. Sphere dynamics in isotropic colloidal rod fluids

12. Albert P. Philipse, Alain Verberkmoes. Statistical geometry of cading effects in random thin-rod structures

13. G. A. van Ewijk, G. J. Vroege and A. P. Philipse. Susceptibility measurements on a fractionated aggregate-free ferrofluid

14. N. Moumen, P. Veillet, M. P. Pileni. Controlled preparation of nanosize cobalt ferrite magnetic particles

15. J. F. Hochepied, M. P. Pileni. Ferromagnetic resonance of nonstoichiometric zinc ferrite and cobalt-doped zinc ferrite nanoparticles

16. V. Russier, C. Petit, J. Legrand, M. P. Pileni. Hysteresis of cobalt nanoparticles organized in a two-dimensional network: dipolar interaction effects

17. A. T. Ngo, P. Bonville, and M. P. Pileni. Nanoparticles of Co_xFe_y