Srivastava, M., Banerjee, S., Bairagi, S., Singh, P., Kumar, B., Singh, P., Kale, R. D., Mulvihill, D. M. and Ali, S. W. (2024) Recent progress in molybdenum disulfide (MoS2) based flexible nanogenerators: an inclusive review. Chemical Engineering Journal, 480, 147963. (doi: 10.1016/j.cej.2023.147963)
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Abstract
Energy consumption and structure have changed in the new era along with the growth of the Internet of Things (IoT) and artificial intelligence, and the power sources for billions of dispersed gadgets and sensors have sparked attention globally to protect the environment. Due to the rising usage of non-renewable energy sources and the resulting environmental damage, researchers are investigating alternative energy systems that can harness energy from the environment. Therefore, self-sufficient small-scale electronic systems will be possible through the use of underutilised natural waste energy sources collected in nanogenerators (NGs). The features of the materials used have a significant impact on how well NGs work. In this regard Molybdenum disulfide (MoS2), a 2D material, is one of the compounds that is discussed vastly nowadays due to its exceptional characteristics that made it useful in a variety of applications. Many research papers on the advancement and implementation of MoS2 materials have been published, but this article will give an in-depth overview. It offers an introduction and interpretation of the main properties of 2D MoS2 nanomaterials, starting with their current state, properties, and various synthesis processes. Later, the review concentrates on MoS2 applications and energy-harvesting capabilities and gives a comprehensive study of piezoelectric, triboelectric and thermometrical nanogenerators based on 2D MoS2 nanocomposite materials.
Item Type: | Articles |
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Additional Information: | The authors would also like to acknowledge the support of the UK Engineering and Physical Sciences Research Council (EPSRC) through grant Ref. EP/V003380/1: ‘Next Generation Energy Autonomous Textile Fabrics based on Triboelectric Nanogenerators’. |
Status: | Published |
Refereed: | Yes |
Glasgow Author(s) Enlighten ID: | Mulvihill, Dr Daniel and Bairagi, Dr Satyaranjan |
Creator Roles: | Bairagi, S.Conceptualization, Investigation, Methodology, Software, Writing – original draft, Writing – review and editing Mulvihill, D.Conceptualization, Formal analysis, Funding acquisition, Investigation, Methodology, Project administration, Resources, Software, Validation, Writing – original draft, Writing – review and editing |
Authors: | Srivastava, M., Banerjee, S., Bairagi, S., Singh, P., Kumar, B., Singh, P., Kale, R. D., Mulvihill, D. M., and Ali, S. W. |
College/School: | College of Science and Engineering > School of Engineering > Systems Power and Energy |
Journal Name: | Chemical Engineering Journal |
Publisher: | Elsevier |
ISSN: | 1385-8947 |
ISSN (Online): | 1873-3212 |
Published Online: | 12 December 2023 |
Copyright Holders: | Copyright © 2023 The Authors |
First Published: | First published in Chemical Engineering Journal 480:147963 |
Publisher Policy: | Reproduced under a Creative Commons license |
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