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MXene-Based Nanocomposites for Piezoelectric and Triboelectric Energy Harvesting Applications.

Durga Prasad PabbaMani SatthiyarajuAnanthakumar RamasdossPandurengan SakthivelChidhambaram NatarajanShanmugasundar DhanabalanCarolina Venegas AbarzúaMauricio J MorelRednam UdayabhaskarRamalinga Viswanathan MangalarajaRadhamanohar AepuruSathish-Kumar KamarajPraveen Kumar MurugesanThirumurugan Arun
Published in: Micromachines (2023)
Due to its superior advantages in terms of electronegativity, metallic conductivity, mechanical flexibility, customizable surface chemistry, etc., 2D MXenes for nanogenerators have demonstrated significant progress. In order to push scientific design strategies for the practical application of nanogenerators from the viewpoints of the basic aspect and recent advancements, this systematic review covers the most recent developments of MXenes for nanogenerators in its first section. In the second section, the importance of renewable energy and an introduction to nanogenerators, major classifications, and their working principles are discussed. At the end of this section, various materials used for energy harvesting and frequent combos of MXene with other active materials are described in detail together with the essential framework of nanogenerators. In the third, fourth, and fifth sections, the materials used for nanogenerators, MXene synthesis along with its properties, and MXene nanocomposites with polymeric materials are discussed in detail with the recent progress and challenges for their use in nanogenerator applications. In the sixth section, a thorough discussion of the design strategies and internal improvement mechanisms of MXenes and the composite materials for nanogenerators with 3D printing technologies are presented. Finally, we summarize the key points discussed throughout this review and discuss some thoughts on potential approaches for nanocomposite materials based on MXenes that could be used in nanogenerators for better performance.
Keyphrases
  • systematic review
  • reduced graphene oxide
  • carbon nanotubes
  • meta analyses
  • risk assessment
  • climate change
  • energy transfer
  • human health