MXene/transition metal sulfide composites in energy storage applications: A review

Onkar Jaywant Kewate; Hasnain Jan; Abdullah Al Mahmud; Amber Batool; Karanpal Singh; P. Rosaiah; MUHAMMAD  Asim; Tensangmu Lama Tamang; Iftikhar Hussain

MXene/transition metal sulfide composites in energy storage applications: A review

Onkar Jaywant Kewate
, Hasnain Jan
, Abdullah Al Mahmud
, Amber Batool
, Karanpal Singh
, P. Rosaiah
, MUHAMMAD Asim
, Tensangmu Lama Tamang
, Iftikhar Hussain

Division of Science, Engineering and Health Studies (SEHS)

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Transition metal sulfides (TMSs) are considered promising candidates due to their distinctive physical and chemical properties. The combination of TMSs with conductive 2D MXene is currently facilitating a significant enhancement in the electrochemical performance of devices. Recent studies show that the incorporation of MXenes with transition metal sulfides results in composites that exhibit improved electrochemical performance.
This review offers a detailed overview of recent progress in MXene/TMS composites for energy storage applications. To provide a comprehensive understanding of the performance enhancement for TMS/MXene materials, experimental insights into energy storage applications are studied. Further, the perspectives on the current challenges and the potential for future progress in this field are discussed.

Original language	English
Pages (from-to)	102816
Journal	Materials Today Chemistry
Volume	47
Publication status	Published - 7 Jun 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 11 Sustainable Cities and Communities
SDG 13 Climate Action

Keywords

MXene
Metal sulfide
Experimental studies
Composites
Energy storage

Cite this

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title = "MXene/transition metal sulfide composites in energy storage applications: A review",

abstract = "Transition metal sulfides (TMSs) are considered promising candidates due to their distinctive physical and chemical properties. The combination of TMSs with conductive 2D MXene is currently facilitating a significant enhancement in the electrochemical performance of devices. Recent studies show that the incorporation of MXenes with transition metal sulfides results in composites that exhibit improved electrochemical performance. This review offers a detailed overview of recent progress in MXene/TMS composites for energy storage applications. To provide a comprehensive understanding of the performance enhancement for TMS/MXene materials, experimental insights into energy storage applications are studied. Further, the perspectives on the current challenges and the potential for future progress in this field are discussed.",

keywords = "MXene, Metal sulfide, Experimental studies, Composites, Energy storage",

author = "\{Jaywant Kewate\}, Onkar and Hasnain Jan and \{Al Mahmud\}, Abdullah and Amber Batool and Karanpal Singh and P. Rosaiah and MUHAMMAD Asim and \{Lama Tamang\}, Tensangmu and Iftikhar Hussain",

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AU - Jaywant Kewate, Onkar

AU - Jan, Hasnain

AU - Al Mahmud, Abdullah

AU - Batool, Amber

AU - Singh, Karanpal

AU - Rosaiah, P.

AU - Asim, MUHAMMAD

AU - Lama Tamang, Tensangmu

AU - Hussain, Iftikhar

PY - 2025/6/7

Y1 - 2025/6/7

N2 - Transition metal sulfides (TMSs) are considered promising candidates due to their distinctive physical and chemical properties. The combination of TMSs with conductive 2D MXene is currently facilitating a significant enhancement in the electrochemical performance of devices. Recent studies show that the incorporation of MXenes with transition metal sulfides results in composites that exhibit improved electrochemical performance. This review offers a detailed overview of recent progress in MXene/TMS composites for energy storage applications. To provide a comprehensive understanding of the performance enhancement for TMS/MXene materials, experimental insights into energy storage applications are studied. Further, the perspectives on the current challenges and the potential for future progress in this field are discussed.

AB - Transition metal sulfides (TMSs) are considered promising candidates due to their distinctive physical and chemical properties. The combination of TMSs with conductive 2D MXene is currently facilitating a significant enhancement in the electrochemical performance of devices. Recent studies show that the incorporation of MXenes with transition metal sulfides results in composites that exhibit improved electrochemical performance. This review offers a detailed overview of recent progress in MXene/TMS composites for energy storage applications. To provide a comprehensive understanding of the performance enhancement for TMS/MXene materials, experimental insights into energy storage applications are studied. Further, the perspectives on the current challenges and the potential for future progress in this field are discussed.

KW - MXene

KW - Metal sulfide

KW - Experimental studies

KW - Composites

KW - Energy storage

UR - http://doi.org/10.1016/j.mtchem.2025.102816

M3 - Article

SN - 2468-5194

VL - 47

SP - 102816

JO - Materials Today Chemistry

JF - Materials Today Chemistry

ER -

MXene/transition metal sulfide composites in energy storage applications: A review

Abstract

UN SDGs

Keywords

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