Issue 42, 2013

Confinement induced stochastic sensing of charged coronene and perylene aggregates in α-hemolysin nanochannels

Abstract

Biological nanopores provide optimum dimensions and an optimal environment to study early aggregation kinetics of charged polyaromatic molecules in the nano-confined regime. It is expected that probing early stages of nucleation will enable us to design a strategy for supramolecular assembly and biocrystallization processes. Specifically, we have studied translocation dynamics of coronene and perylene based salts, through the α-hemolysin (α-HL) protein nanopore. The characteristic blocking events in the time-series signal are a function of concentration and bias voltage. We argue that different blocking events arise due to different aggregation processes as captured by all atomistic molecular dynamics (MD) simulations. These confinement induced aggregations of polyaromatic chromophores during the different stages of translocation are correlated with the spatial symmetry and charge distribution of the molecules.

Graphical abstract: Confinement induced stochastic sensing of charged coronene and perylene aggregates in α-hemolysin nanochannels

Supplementary files

Article information

Article type
Paper
Submitted
10 May 2013
Accepted
04 Sep 2013
First published
05 Sep 2013

Soft Matter, 2013,9, 10196-10202

Confinement induced stochastic sensing of charged coronene and perylene aggregates in α-hemolysin nanochannels

R. Shivanna, D. Pramanik, H. Kumar, K. V. Rao, S. J. George, P. K. Maiti and K. S. Narayan, Soft Matter, 2013, 9, 10196 DOI: 10.1039/C3SM51313K

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