Maxim Belkin
Overview
Explore the profile of Maxim Belkin including associated specialties, affiliations and a list of published articles.
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Articles
6
Citations
159
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Recent Articles
1.
Pud S, Chao S, Belkin M, Verschueren D, Huijben T, van Engelenburg C, et al.
Nano Lett
. 2016 Dec;
16(12):8021-8028.
PMID: 27960493
Nanopores have become ubiquitous components of systems for single-molecule manipulation and detection, in particular DNA sequencing where electric field driven translocation of DNA through a nanopore is used to read...
2.
Belkin M, Aksimentiev A
ACS Appl Mater Interfaces
. 2016 Mar;
8(20):12599-608.
PMID: 26963065
The integration of local heat sources with solid-state nanopores offers new means for controlling the transmembrane transport of charged biomacromolecules. In the case of electrophoretic transport of DNA, recent experimental...
3.
Belkin M, Chao S, Jonsson M, Dekker C, Aksimentiev A
ACS Nano
. 2015 Sep;
9(11):10598-611.
PMID: 26401685
With the aim of developing a DNA sequencing methodology, we theoretically examine the feasibility of using nanoplasmonics to control the translocation of a DNA molecule through a solid-state nanopore and...
4.
Belkin M, Chao S, Giannetti G, Aksimentiev A
J Comput Electron
. 2014 Nov;
13(4):826-838.
PMID: 25395899
Local modulation of temperature has emerged as a new mechanism for regulation of molecular transport through nanopores. Predicting the effect of such modulations on nanopore transport requires simulation protocols capable...
5.
Belkin M, Maffeo C, Wells D, Aksimentiev A
ACS Nano
. 2013 Jul;
7(8):6816-24.
PMID: 23876013
Practical applications of solid-state nanopores for DNA detection and sequencing require the electrophoretic motion of DNA through the nanopores to be precisely controlled. Controlling the motion of single-stranded DNA presents...
6.
Wells D, Belkin M, Comer J, Aksimentiev A
Nano Lett
. 2012 Jul;
12(8):4117-23.
PMID: 22780094
Using all-atom molecular dynamics and atomic-resolution Brownian dynamics, we simulate the translocation of single-stranded DNA through graphene nanopores and characterize the ionic current blockades produced by DNA nucleotides. We find...