Recent advances in MXene nanomaterials: Fundamentals to applications in environment sector

Author:

Nazir Muhammad Altaf1ORCID,Najam Tayyaba2,Ullah Sami1,Hossain Ismail3,Javed Muhammad Sufyan4,Naseer Mamoona1,Rehman Aziz ur1,Shah Syed Shoaib Ahmad5ORCID

Affiliation:

1. Institute of Chemistry The Islamia University of Bahawalpur Bahawalpur Pakistan

2. Research and Development Division, SciTech International Pvt Ltd Islamabad Pakistan

3. Department of Nuclear and Renewable Energy Ural Federal University Yekaterinburg Russia

4. Institute of Carbon Neutrality Zhejiang Wanli University Ningbo China

5. Department of Chemistry School of Natural Sciences National University of Sciences and Technology Islamabad Pakistan

Abstract

AbstractMXenes are a new type of 2D transition metal carbon/nitride or carbonitride, which are composed of Mn+1AXn phase material (MAX phase) through single‐layer or thin‐layer nanosheets obtained by exfoliation. Owning to unique two‐dimensional layered structure, large specific surface area, excellent electrical conductivity and mechanical stability, the MXenes have quickly become a research hotspot due to their magnetic and other properties, and have been widely used in many fields such as electrochemical sensors, energy storage, catalysis, and adsorption. This article summarizes and introduces preparation methods of two‐dimensional materials MXenes, and focus on reviewing their application research progress in the electrochemical sensors and environmental field in recent years, including detection of biomarkers and environmental pollutants, adsorption of heavy metals, adsorption of radiation metals, adsorption of organic matter, selective adsorption of carbon dioxide, membrane separation, sensors, electrocatalysis, photocatalysis, electromagnetic absorption and shielding, etc. A summary and review were conducted, and finally the existing problems and future development at this stage were analyzed.

Publisher

Wiley

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