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Advances of MXene heterostructure composites in the area of sensing and biomedical applications: an overview

Advances of MXene heterostructure composites in the area of sensing and biomedical applications: an overview
Advances of MXene heterostructure composites in the area of sensing and biomedical applications: an overview
Among various two-dimensional materials, MXenes have emerged as versatile materials that incorporate transition metal carbide, nitride, and carbonitrides. MXenes are gaining paramount attraction among the scientific community in areas of catalyst, energy, electromagnetic shielding, and sensors due to their outstanding mechanical, electrical, sensing, optical, and tunable characteristics. The unique properties such as surface chemistry, graphene-like morphology, metal-like conductivity, and high hydrophilicity ameliorate MXene as an ideal 2D material for surface-related applications. This review focuses on the most recent reports on the surface modifications/surface chemistry and electrochemical sensing of different analytes using MXenes for biomedical applications, biomolecule detection, and environmental monitoring. The present review concisely summarizes different characterization techniques, such as X-ray diffraction methods and electron microscopy, for evaluating MXene characteristics. Apart from titanium carbide MXene, other MXene needs a careful investigation to accentuate the future perspectives of MXenes in sensor devices. This comprehensive review paper aims to inspire the scientific community that is intrigued by the potential properties, benefits, prospects, and difficulties of utilizing 2D materials in various biosensing and biomedical applications.
2352-9407
Ponnada, Srikanth
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Kiai, Maryam Sadat
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Yadav, Sarita
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Palariya, Anjali
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Rao Vusa, Chiranjeevi Sreenivasa
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Bose, Rapaka S. Chandra
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Nehra, Anita
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Datta, Saikat
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Pawar, Ravinder
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Martynkova, Grazyna Simha
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Gadkari, Siddharth
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Naskar, Susmita
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Sharma, Rakesh K.
fdf81a12-5083-47d4-9050-dedc3319c2c3
Ponnada, Srikanth
207829f2-c5f1-4952-8ae3-4b622c8bce37
Kiai, Maryam Sadat
83479e4b-d1d8-4993-878f-96766bf230d1
Yadav, Sarita
14786491-d94b-4367-bcbf-ebb7d20f9b4c
Palariya, Anjali
0419b959-23aa-4135-973f-ac876553c76f
Rao Vusa, Chiranjeevi Sreenivasa
e5bd28ad-64a3-4873-8ad7-6b98ca0d90d7
Bose, Rapaka S. Chandra
f13eaed0-bda5-4ae2-9ebc-23ce11d14c01
Nehra, Anita
7e5da601-2b5a-4d4b-aecb-293149add164
Datta, Saikat
f2c612f7-09f4-4963-a779-878607925230
Pawar, Ravinder
06fa8d5a-2b7e-447f-8329-8032969f96c8
Martynkova, Grazyna Simha
073971ed-b10b-48f9-b307-0603bb825035
Gadkari, Siddharth
32ff24ba-eaad-4acd-82fa-fb59bb45ff0a
Naskar, Susmita
5f787953-b062-4774-a28b-473bd19254b1
Sharma, Rakesh K.
fdf81a12-5083-47d4-9050-dedc3319c2c3

Ponnada, Srikanth, Kiai, Maryam Sadat, Yadav, Sarita, Palariya, Anjali, Rao Vusa, Chiranjeevi Sreenivasa, Bose, Rapaka S. Chandra, Nehra, Anita, Datta, Saikat, Pawar, Ravinder, Martynkova, Grazyna Simha, Gadkari, Siddharth, Naskar, Susmita and Sharma, Rakesh K. (2024) Advances of MXene heterostructure composites in the area of sensing and biomedical applications: an overview. Applied Materials Today, 39, [102310]. (doi:10.1016/j.apmt.2024.102310).

Record type: Article

Abstract

Among various two-dimensional materials, MXenes have emerged as versatile materials that incorporate transition metal carbide, nitride, and carbonitrides. MXenes are gaining paramount attraction among the scientific community in areas of catalyst, energy, electromagnetic shielding, and sensors due to their outstanding mechanical, electrical, sensing, optical, and tunable characteristics. The unique properties such as surface chemistry, graphene-like morphology, metal-like conductivity, and high hydrophilicity ameliorate MXene as an ideal 2D material for surface-related applications. This review focuses on the most recent reports on the surface modifications/surface chemistry and electrochemical sensing of different analytes using MXenes for biomedical applications, biomolecule detection, and environmental monitoring. The present review concisely summarizes different characterization techniques, such as X-ray diffraction methods and electron microscopy, for evaluating MXene characteristics. Apart from titanium carbide MXene, other MXene needs a careful investigation to accentuate the future perspectives of MXenes in sensor devices. This comprehensive review paper aims to inspire the scientific community that is intrigued by the potential properties, benefits, prospects, and difficulties of utilizing 2D materials in various biosensing and biomedical applications.

Text
R3_17-06-2024 without-highlight - Accepted Manuscript
Restricted to Repository staff only until 8 July 2026.
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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Accepted/In Press date: 24 June 2024
e-pub ahead of print date: 8 July 2024
Published date: 8 July 2024

Identifiers

Local EPrints ID: 492027
URI: http://eprints.soton.ac.uk/id/eprint/492027
DOI: doi:10.1016/j.apmt.2024.102310
ISSN: 2352-9407
PURE UUID: bd19dc47-d346-45f6-b52a-6dc93d84661e
ORCID for Susmita Naskar: ORCID iD orcid.org/0000-0003-3294-8333

Catalogue record

Date deposited: 11 Jul 2024 17:15
Last modified: 12 Jul 2024 02:08

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Contributors

Author: Srikanth Ponnada
Author: Maryam Sadat Kiai
Author: Sarita Yadav
Author: Anjali Palariya
Author: Chiranjeevi Sreenivasa Rao Vusa
Author: Rapaka S. Chandra Bose
Author: Anita Nehra
Author: Saikat Datta
Author: Ravinder Pawar
Author: Grazyna Simha Martynkova
Author: Siddharth Gadkari
Author: Susmita Naskar ORCID iD
Author: Rakesh K. Sharma

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