МИКРОЗОНДЫ ДЛЯ ОПРЕДЕЛЕНИЯ СИЛЫ АДГЕЗИИ И УДЕЛЬНОЙ ПОВЕРХНОСТНОЙ ЭНЕРГИИ МЕТОДОМ АТОМНО-СИЛОВОЙ МИКРОСКОПИИ
Аннотация
Об авторах
Т. А. КузнецоваБеларусь
Н. В. Чижик
Беларусь
Т. И. Ширяева
Беларусь
Список литературы
1. Drelich, Ed. J. Atomic Force Microscopy in Adhesion Studies / Ed. J. Drelich [et al]. – Boston : Brill Academic Pub. – 2005. – 822 pp.
2. Ferreiraa, O. Adhesion experiments using an AFM — Parameters of influence / O. Ferreiraa [et al] // Applied Surface Science. – 2010. – V. 257. – P. 48–55.
3. Israelachvili, J.N. Intermolecular and surface forces : 2nd ed / J.N. Israelachvili. – New York : Academic Press. – 1992. – 470 pр.
4. Zhanga, W. Interaction force measurement between E. coli cells and nanoparticles immobilized surfaces by using AFM / W. Zhanga, A.G. Stackb, Y. Chena // Colloids and Surfaces B: Biointerfaces. – 2011. – V. 82. – P. 316–324.
5. Sotres, J. AFM Imaging and Analysis of Electrostatic Double Layer Forces on Single DNA Molecules / J. Sotres and A. M. Baro // Biophysical Journal Volume. – 2010. – V. 98. – P. 1995–2004.
6. Götzinger, M. Dispersive forces of particle-surface interactions: direct AFM measurements and modelling / M. Götzinger, W. Peukert // Powder Technology. – 2003. – V. 130. – P. 102–109.
7. Inter-particle forces in cohesive powders studied by AFM: effects of relative humidity, particle size and wall adhesion R. Jonesa [et al] // Powder Technology. – 2003. – V.132. – P. 196– 210.
8. Thio, B.J. Measurement of polyamide and polystyrene adhesion with coated-tip atomic force microscopy / B. J. Thio, J. C. Meredith // Journal of Colloid and Interface Science. – 2007. – V. 314. – P. 52–62.
9. Study of the friction, adhesion and mechanical properties of single crystals, ceramics and ceramic coatings by AFM / J.J. Roaa [et al] // Journal of the European Ceramic Society. – 2011. – V. 31. – P. 429–449.
10. Investigation of adhesive and frictional behaviour of GeSbTe films with AFM/FFM / G. Xie [et al] // Tribology International. – 2009. – V. 42. – P. 183–189.
11. Fawzy, A.S. Probing nano-scale adhesion force between AFM and acid demineralized intertubular dentin: Moist versus dry dentin / A.S. Fawzy, A.M. Farghaly // Journal of dentistry. – 2009. – V. 37. – P.963–969.
12. Study of interaction between silicon surfaces in dilute ammonia peroxide mixtures (APM) and their components using atomic force microscope (AFM) / S. Siddiqui [et al] // Microelectronic Engineering. – 2011. – V. 88. – P. 3442–3447.
13. Interlaboratory round robin on cantilever calibration for AFM force spectroscopy / J. Riet [et al] // Ultramicroscopy. – 2011. – V. 111. – P. 1659–1669.
14. Evaluation of the particle–particle interactions in a toner by colloid probe AFM / M. Tanaka [et al.] / Powder Technology. – V. 183. – 2008. – P. 273–281.
15. Дедков, Г.В. Нанотрибология: экспериментальные факты и теоретические модели / Г.В. Дедков // Успехи физических наук. – 2000. – Т. 170. – № 6. – С. 585–618.
16. Свириденок, А.И. Механика дискретного фрикционного контакта / А.И. Свириденок, С.А. Чижик, М.И. Петроковец. – Минск : Навука i тэхнiка, 1990. – 272 с.
Рецензия
Для цитирования:
Кузнецова Т.А., Чижик Н.В., Ширяева Т.И. МИКРОЗОНДЫ ДЛЯ ОПРЕДЕЛЕНИЯ СИЛЫ АДГЕЗИИ И УДЕЛЬНОЙ ПОВЕРХНОСТНОЙ ЭНЕРГИИ МЕТОДОМ АТОМНО-СИЛОВОЙ МИКРОСКОПИИ. Приборы и методы измерений. 2013;(1):41-45.
For citation:
Kuznetsova T.A., Chizik N.V., Shiryaeva T.I. MICROPROBE FOR DETERMINATION OF ADHESION FORCE AND THE SPECIFIC SURFACE ENERGY BY AFM. Devices and Methods of Measurements. 2013;(1):41-45. (In Russ.)