DNA Translocation Through Vertically Stacked 2D Layers of Graphene & Hexagonal Boron Nitride Heterostructure Nanopore Article Swipe

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R. Balasubramanian , Sohini Pal , Anjana Rao , Akshay Naik , Banani Chakraborty , Prabal K. Maiti , Manoj M. Varma ·

YOU? · · 2020 · Open Access · · DOI: https://doi.org/10.26434/chemrxiv.12103515

Cost effective, fast and reliable DNA sequencing can be enabled by advances in nanopore based methods, such as the use of atomically thin graphene membranes. However, strong interaction of DNA bases with graphene leads to undesirable effects such as sticking of DNA strands to the membrane surface. While surface functionalization is one way to counter this problem, here we present another solution based on a heterostructure nanopore system, consisting of a monolayer of graphene and hexagonal Boron Nitride (hBN) each. Molecular dynamics studies of DNA translocation through this heterostructure nanopore revealed a surprising and crucial influence of heterostructure layer order in controlling the base specific signal variability. Specifically, the heterostructure with graphene on top of hBN had nearly 3-10x lower signal variability than the one with hBN on top of graphene. Simulations point to the role of differential underside sticking of DNA bases as a possible reason for the observed influence of layer order. Our studies can guide the development of experimental systems to study and exploit DNA translocation through two-dimensional heterostructure nanopores for single molecule sequencing and sensing applications.

Related Topics

Graphene

Materials Science

Nanotechnology

Transition Metal Dichalcogenide Monolayers

Boron Nitride

Optoelectronics

Concepts

Nanopore Graphene Heterojunction Materials science Nanotechnology Monolayer Boron nitride Optoelectronics

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Type: preprint
Language: en
Landing Page: https://doi.org/10.26434/chemrxiv.12103515
PDF: https://chemrxiv.org/engage/api-gateway/chemrxiv/assets/orp/resource/item/60c749cf9abda21079f8cce5/original/dna-translocation-through-vertically-stacked-2d-layers-of-graphene-amp-hexagonal-boron-nitride-heterostructure-nanopore.pdf
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References: 81
Related Works: 10
OpenAlex ID: https://openalex.org/W4205471739

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DOI: https://doi.org/10.26434/chemrxiv.12103515

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Title: DNA Translocation Through Vertically Stacked 2D Layers of Graphene & Hexagonal Boron Nitride Heterostructure Nanopore

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Type: preprint

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Language: en

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Publication year: 2020

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Publication date: 2020-04-13

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Authors: R. Balasubramanian, Sohini Pal, Anjana Rao, Akshay Naik, Banani Chakraborty, Prabal K. Maiti, Manoj M. Varma

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Landing page: https://doi.org/10.26434/chemrxiv.12103515

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Concepts: Nanopore, Graphene, Heterojunction, Materials science, Nanotechnology, Monolayer, Boron nitride, Optoelectronics

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abstract_inverted_index.we	58
abstract_inverted_index.DNA	5, 29, 41, 84, 141, 167
abstract_inverted_index.Our	154
abstract_inverted_index.and	3, 74, 93, 165, 177
abstract_inverted_index.can	7, 156
abstract_inverted_index.for	147, 173
abstract_inverted_index.hBN	115, 126
abstract_inverted_index.had	116
abstract_inverted_index.one	51, 124
abstract_inverted_index.the	18, 44, 102, 108, 123, 134, 148, 158
abstract_inverted_index.top	113, 128
abstract_inverted_index.use	19
abstract_inverted_index.way	52
abstract_inverted_index.Cost	0
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abstract_inverted_index.fast	2
abstract_inverted_index.here	57
abstract_inverted_index.role	135
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abstract_inverted_index.than	122
abstract_inverted_index.thin	22
abstract_inverted_index.this	55, 87
abstract_inverted_index.with	31, 110, 125
abstract_inverted_index.(hBN)	78
abstract_inverted_index.3-10x	118
abstract_inverted_index.Boron	76
abstract_inverted_index.While	47
abstract_inverted_index.based	14, 62
abstract_inverted_index.bases	30, 142
abstract_inverted_index.each.	79
abstract_inverted_index.guide	157
abstract_inverted_index.layer	98, 152
abstract_inverted_index.leads	33
abstract_inverted_index.lower	119
abstract_inverted_index.order	99
abstract_inverted_index.point	132
abstract_inverted_index.study	164
abstract_inverted_index.nearly	117
abstract_inverted_index.order.	153
abstract_inverted_index.reason	146
abstract_inverted_index.signal	105, 120
abstract_inverted_index.single	174
abstract_inverted_index.strong	26
abstract_inverted_index.Nitride	77
abstract_inverted_index.another	60
abstract_inverted_index.counter	54
abstract_inverted_index.crucial	94
abstract_inverted_index.effects	36
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abstract_inverted_index.exploit	166
abstract_inverted_index.present	59
abstract_inverted_index.sensing	178
abstract_inverted_index.strands	42
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abstract_inverted_index.system,	67
abstract_inverted_index.systems	162
abstract_inverted_index.through	86, 169
abstract_inverted_index.However,	25
abstract_inverted_index.advances	11
abstract_inverted_index.dynamics	81
abstract_inverted_index.graphene	23, 32, 73, 111
abstract_inverted_index.membrane	45
abstract_inverted_index.methods,	15
abstract_inverted_index.molecule	175
abstract_inverted_index.nanopore	13, 66, 89
abstract_inverted_index.observed	149
abstract_inverted_index.possible	145
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abstract_inverted_index.revealed	90
abstract_inverted_index.solution	61
abstract_inverted_index.specific	104
abstract_inverted_index.sticking	39, 139
abstract_inverted_index.surface.	46
abstract_inverted_index.Molecular	80
abstract_inverted_index.graphene.	130
abstract_inverted_index.hexagonal	75
abstract_inverted_index.influence	95, 150
abstract_inverted_index.monolayer	71
abstract_inverted_index.nanopores	172
abstract_inverted_index.underside	138
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abstract_inverted_index.sequencing	6, 176
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abstract_inverted_index.Simulations	131
abstract_inverted_index.controlling	101
abstract_inverted_index.development	159
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abstract_inverted_index.experimental	161
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abstract_inverted_index.applications.	179
abstract_inverted_index.translocation	85, 168
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abstract_inverted_index.two-dimensional	170
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cited_by_percentile_year
countries_distinct_count	2
institutions_distinct_count	7
citation_normalized_percentile.value	0.20480436
citation_normalized_percentile.is_in_top_1_percent	False
citation_normalized_percentile.is_in_top_10_percent	False