Recent advances in 2D hexagonal boron nitride (2D-hBN) applied as the basis of electrochemical sensing platforms

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Abstract

2D hexagonal boron nitride (2D-hBN) is a lesser utilised material than other 2D counterparts in electrochemistry due to initial reports of it being non-conductive. As we will demonstrate in this review, this common misconception is being challenged, and researchers are starting to utilise 2D-hBN in the field of electrochemistry, particularly as the basis of electroanalytical sensing platforms. In this critical review, we overview the use of 2D-hBN as an electroanalytical sensing platform summarising recent developments and trends and highlight future developments of this interesting, often overlooked, 2D material.

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Most cited references 84

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K. S. Novoselov, A. K. Geim, S. Morozov … (2004)

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Van der Waals heterostructures

A. K. Geim, I. V. Grigorieva (2013)

Research on graphene and other two-dimensional atomic crystals is intense and is likely to remain one of the leading topics in condensed matter physics and materials science for many years. Looking beyond this field, isolated atomic planes can also be reassembled into designer heterostructures made layer by layer in a precisely chosen sequence. The first, already remarkably complex, such heterostructures (often referred to as 'van der Waals') have recently been fabricated and investigated, revealing unusual properties and new phenomena. Here we review this emerging research area and identify possible future directions. With steady improvement in fabrication techniques and using graphene's springboard, van der Waals heterostructures should develop into a large field of their own.

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Author and article information

Contributors

Craig E. Banks: c.banks@mmu.ac.uk

Journal

Journal ID (nlm-ta): Anal Bioanal Chem

Journal ID (iso-abbrev): Anal Bioanal Chem

Title: Analytical and Bioanalytical Chemistry

Publisher: Springer Berlin Heidelberg (Berlin/Heidelberg )

ISSN (Print): 1618-2642

ISSN (Electronic): 1618-2650

Publication date (Electronic): 7 December 2020

Publication date PMC-release: 7 December 2020

Publication date (Print): 2021

Volume: 413

Issue: 3

Pages: 663-672

Affiliations

GRID grid.25627.34, ISNI 0000 0001 0790 5329, Faculty of Science and Engineering, , Manchester Metropolitan University, ; Chester Street, Manchester, M1 5GD UK

Author notes

Published in the topical collection 2D Nanomaterials for Electroanalysis with guest editor Sabine Szunerits.

Article

Publisher ID: 3068

DOI: 10.1007/s00216-020-03068-8

PMC ID: 7808977

PubMed ID: 33284404

SO-VID: 546c5f77-a4b4-4b24-bc2f-13041f4976de

License:

Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.

History

Date received : 18 October 2020

Date accepted : 12 November 2020

Funding

Funded by: Manchester Metropolitan University

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ScienceOpen disciplines: Analytical chemistry

Keywords: 2d hexagonal boron nitride,2d-hbn,electroanalysis,sensors,electrochemistry

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ScienceOpen disciplines: Analytical chemistry

Keywords: 2d hexagonal boron nitride, 2d-hbn, electroanalysis, sensors, electrochemistry

Recent advances in 2D hexagonal boron nitride (2D-hBN) applied as the basis of electrochemical sensing platforms

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Abstract

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Drug_transporters

Most cited references 84

Electric Field Effect in Atomically Thin Carbon Films

Van der Waals heterostructures

Graphene-like two-dimensional materials.

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