New horizons in surface topography modulation of MXenes for electrochemical sensing toward potential biomarkers of chronic disorders /
Title
New horizons in surface topography modulation of MXenes for electrochemical sensing toward potential biomarkers of chronic disorders /
Subject
Chemistry
Description
Critical Reviews in Solid State and Materials Sciences, Vol.7, Issue 3, pp.1-43, ISSN No: 1547-6561.
MXenes are recently advanced two-dimensional layered nanomaterials that have various characteristic properties for developing electrochemical sensors for bioanalytical applications, such as hydrophilicity, good biocompatibility, electrical conductivity, heightened ion transportation, and ease of functionalization. MXenes are revealed to be having applications in various other fields including energy storage, and catalysis. The combination of a layered structure, biocompatibility, and high surface functionalities makes MXene a highly versatile material for electrochemical sensing applications. The effect of various synthesis and functionalization strategies on tuning the properties of MXenes toward improving sensing abilities has been comprehensively discussed.
MXenes are recently advanced two-dimensional layered nanomaterials that have various characteristic properties for developing electrochemical sensors for bioanalytical applications, such as hydrophilicity, good biocompatibility, electrical conductivity, heightened ion transportation, and ease of functionalization. MXenes are revealed to be having applications in various other fields including energy storage, and catalysis. The combination of a layered structure, biocompatibility, and high surface functionalities makes MXene a highly versatile material for electrochemical sensing applications. The effect of various synthesis and functionalization strategies on tuning the properties of MXenes toward improving sensing abilities has been comprehensively discussed.
Creator
Rajeev, Rijo., Thadathil, Ditto Abraham., Varghese, Anitha.
Publisher
Taylor & Francis Online
Date
2022
Language
English
Type
Research Publication
Collection
Citation
Rajeev, Rijo., Thadathil, Ditto Abraham., Varghese, Anitha., “New horizons in surface topography modulation of MXenes for electrochemical sensing toward potential biomarkers of chronic disorders /,” CHRIST (Deemed To Be University) Institutional Repository, accessed October 18, 2024, https://archives.christuniversity.in/items/show/2129.