2022
DOI: 10.3390/mi13020261
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Protein Dielectrophoresis: A Tale of Two Clausius-Mossottis—Or Something Else?

Abstract: Standard DEP theory, based on the Clausius–Mossotti (CM) factor derived from solving the boundary-value problem of macroscopic electrostatics, fails to describe the dielectrophoresis (DEP) data obtained for 22 different globular proteins over the past three decades. The calculated DEP force appears far too small to overcome the dispersive forces associated with Brownian motion. An empirical theory, employing the equivalent of a molecular version of the macroscopic CM-factor, predicts a protein’s DEP response f… Show more

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Cited by 20 publications
(29 citation statements)
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“…We believe that our model can explain experimental findings such as the paradoxical accumulation of viruses and proteins in field cages or at electrode edges, where the dipole approach cannot account for sufficiently high trapping forces to withstand Brownian motion [ 16 , 17 , 42 , 43 , 44 ]. Forces large enough to trap small objects can result from inhomogeneous object polarization at electrodes or other surfaces and near to other objects.…”
Section: Discussionmentioning
confidence: 99%
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“…We believe that our model can explain experimental findings such as the paradoxical accumulation of viruses and proteins in field cages or at electrode edges, where the dipole approach cannot account for sufficiently high trapping forces to withstand Brownian motion [ 16 , 17 , 42 , 43 , 44 ]. Forces large enough to trap small objects can result from inhomogeneous object polarization at electrodes or other surfaces and near to other objects.…”
Section: Discussionmentioning
confidence: 99%
“…The CMFs of Equation (2) are three times larger than the usual expressions because the depolarization coefficient of 1/3 of the 3D sphere has not been separated and truncated against the 1/3 in the volume term; a step that is historically justified but is a simplification only for 3D spheres [9,17]. This allowed us to retain the full volume term in Equation (17), which reflects the ponderomotive (bodily) nature of the DEP force.…”
Section: General Remarksmentioning
confidence: 99%
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“…Recent work by Pethig and Hölzel [ 53 , 64 ] as well as Matyushov and Heyden [ 65 , 66 ] may give a more comprehensive explanation of protein DEP, however. Matyushov [ 65 ] suggested two reasons that contribute to the disagreement between theory and experimental observations: (i) a failure of Maxwell’s electrostatics to describe the cavity-field susceptibility, and (ii) the neglect of the protein permanent dipole by the Clausius–Mossotti equation.…”
Section: Principle Of Dielectrophoresismentioning
confidence: 99%
“…In a series of papers, Hölzel and Pethig [ 53 , 64 , 67 ] propose a DEP force equation based on an empirical relationship between the macroscopic and microscopic forms of the Clausius–Mossotti factor. Like Matyushov, they also identified the intrinsic dipole moment of proteins as particularly relevant for DEP of globular proteins.…”
Section: Principle Of Dielectrophoresismentioning
confidence: 99%