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Analytical Model for Particle Capture in Nanopores Elucidates Competition among Electrophoresis, Electroosmosis, and Dielectrophoresis

Mauro Chinappi, Misa Yamaji, Ryuji Kawano, Fabio Cecconi

2020ACS Nano98 citationsDOIOpen Access PDF

Abstract

associated with a free-energy barrier at the pore entrance. Within this theoretical framework, we described the standard experimental condition where a particle concentration is driven into the pore by an applied voltage, with specific focus on different capture mechanisms: under pure electrophoretic force, in the presence of a competition between electrophoresis and electroosmosis, and finally under dielectrophoretic reorientation of dipolar particles. Our theory predicts that dielectrophoresis is able to induce capture for both positive and negative voltages. We performed a dedicated experiment involving a biological nanopore (α-hemolysin) and a rigid dipolar dumbbell (realized with a β-hairpin peptide) that confirms the theoretically proposed capture mechanism.

Topics & Concepts

DielectrophoresisNanoporeElectrophoresisChemical physicsParticle (ecology)Materials scienceElectrokinetic phenomenaNanotechnologyBrownian motionElectric fieldDipoleMechanicsGranularityChemistryMicrofluidicsPhysicsChromatographyGeologyComputer scienceOperating systemOrganic chemistryQuantum mechanicsOceanographyNanopore and Nanochannel Transport StudiesElectrostatics and Colloid InteractionsMicrofluidic and Bio-sensing Technologies
Analytical Model for Particle Capture in Nanopores Elucidates Competition among Electrophoresis, Electroosmosis, and Dielectrophoresis | Litcius