Recent Advancements of MXene/Nanocellulose‐Based Hydrogel and Aerogel: A Review

Author:

Ahmed Bulbul1,Hossain Md. Jakir2,Al Parvez Abdullah3,Talukder Amit4ORCID,Al-Amin Md.5,Al Mahmud Md. Abdullah6,Islam Tarikul47ORCID

Affiliation:

1. School of Renewable Natural Resources Louisiana State University Baton Rouge LA 70803 USA

2. Department of Apparel, Design, and Merchandising Iowa State University Ames Iowa USA

3. Faculty of Textile and Clothing Technology Hochschule Niederrhein – University of Applied Sciences Kaiserstraße 140 Mönchengladbach 41061 Germany

4. Department of Textiles, Merchandising, and Interiors The University of Georgia Athens USA

5. Department of Plastics Engineering University of Massachusetts Lowell Lowell MA 01854 USA

6. Department of Chemistry Louisiana State University Baton Rouge LA 70803 USA

7. Department of Textile Engineering Jashore University of Science and Technology Jashore 7408 Bangladesh

Abstract

MXenes have been highly attractive to researchers owing to their layered nanostructure, excellent electrical conductivity, and abundance of functional groups. Meanwhile, nanocellulose materials, known for their biodegradability, renewability, compatibility with living organisms, and cost‐effectiveness, have emerged as a popular choice for material selection researchers. Recent research has discovered that combining nanocellulose with MXenes can improve the mechanical properties of MXenes, resulting in composite materials with remarkable electrical and mechanical properties. This article provides an overview of the three main types of nanocellulose: cellulose nanofiber, cellulose nanocrystal, and bacterial cellulose. It also discusses various synthesis methods for MXenes, including MXene/nanocellulose‐based hydrogel and aerogel. Additionally, the article highlights the multiple uses of MXene/nanocellulose composites in different fields, including flexible sensing materials, electromagnetic shielding, energy storage structures, and wearable health monitoring. This review covers distinctive characteristics and unique MXene/nanocellulose composite behaviors, their recent advancements in MXene/nanocellulose synthesis, and applications. Moving forward, the potential for these materials to be used innovatively with anticipation of taking the MXene/nanocellulose‐based research further steps across the respective scientific community.

Publisher

Wiley

Subject

Linguistics and Language,Anthropology,History,Language and Linguistics,Cultural Studies

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