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2003347 
Journal Article 
Dielectrophoresis of functionalized lipid unilamellar vesicles (liposomes) with contrasting surface constructs 
Froude, VE; Zhu, Y 
2009 
Yes 
Journal of Physical Chemistry B
ISSN: 1520-6106
EISSN: 1520-5207 
113 
1552-1558 
English 
19193162 
Dielectrophoresis (DEP) has been exceedingly exploited recently as an effective technique for rapid manipulation, separation, and assembly of biological particles including cells, proteins, and DNAs. However, optimizing of the DEP process with biocolloidal suspensions remains challenging, mainly due to inadequate understanding of AC polarization of complex biological structures. In this paper, we examine the DEP behavior of model functionalized lipid unilamellar vesicles (liposomes) with distinct exterior surface properties and compare the measured crossover frequency, omegac, with the theoretical prediction based on the Maxwell-Wagner interfacial polarization mechanism for a shell structure. With a uniform shell coating of calcium phosphate, we observe a drastic decrease in omegac compared to the measured value for plain liposome particles. In sharp contrast, with the patchy surface created by the adsorption of oppositely charged nanoparticles on liposome outer surfaces, we observe that omegac is independent of nanoparticle surface coverage, despite the considerable change in liposome surface conductivity by increasing adsorbed nanoparticles. Our results indicate the particle construct, rather than surface conductivity, plays a critical role in the DEP behavior of a shell particle, which is remarkably different from a solid dielectric particle.