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My research is in the area of bioelectronics, most specifically in a phenomenon of dielectrophoresis (DEP). DEP is the name given to micro- or nano-particle movement due to the interaction with certain kind of electrical field; the speed and direction of movement depends on the resistance and capacitance of the particle and the frequency of the electric field; analysing the response as a function of frequency allows those properties to be measured, whilst mixtures of particles with different properties can be separated at frequencies where their responses are different. Whilst my group has looked at a range of particles including proteins, DNA, nanowires, carbon nanotubes and clay, the primary focus has been on cells - including cancer, stem cells, bacteria and yeast.
研究兴趣
论文共 152 篇作者统计合作学者相似作者
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Michael Pycraft Hughes, Krista S. P. Clarke, Rashedul Hoque, Oreoluwa V. Griffiths,Emily J. Kruchek, Federico Bertagna,Kamalan Jeevaratnam,Rebecca Lewis,Fatima H. Labeed
ELECTROPHORESIS (2024)
Matthew P. Johnson, Nira Lauterkorn,Rebecca Lewis,Fatima H. Labeed,Suzanne M. Hingley-Wilson,Michael Pycraft Hughes
ELECTROPHORESIS (2024)
Africa Smith de Diego, Oreoluwa V. Griffiths, Matthew P. Johnson, Marco de Montis,Michael Pycraft Hughes
Stephanie Chacar, Mary Krystelle Catacutan, Shamma Albakr, Habiba Al Safar, Samira Babiker, Samar Ahmed, Anas A. Albizreh, Ahmed Z. Alshehhi,Sungmun Lee,Moni Nader,Michael Pycraft Hughes
MEASUREMENT SCIENCE AND TECHNOLOGYno. 5 (2024)
INTEGRATIVE BIOLOGY (2024)
Electrophoresisno. 11-12 (2023)
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ELECTROPHORESISno. 11-12 (2023): 947-955
Lab on a chipno. 23 (2023): 4928-4949
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