Recent Trend and Future Aspects of Metal-organic Framework-derived Multi-Shelled Nanomaterials for Energy Storage

Iftikhar Hussain; Karanpal Singh; Avinash C. Mendhe; Murugavel Kathiresan; Muhammad Kashif Aslam; Ke-Juan Meng; Momang Tian; Shahid Ali Khan; Wail Al Zoubi; Kaili Zhang

doi:10.1002/smll.202500808

Recent Trend and Future Aspects of Metal-organic Framework-derived Multi-Shelled Nanomaterials for Energy Storage

Iftikhar Hussain^*, Karanpal Singh, Avinash C. Mendhe, Murugavel Kathiresan, Muhammad Kashif Aslam, Ke-Juan Meng, Momang Tian, Shahid Ali Khan, Wail Al Zoubi^*, Kaili Zhang^*

^*Corresponding author for this work

Department of Mechanical Engineering

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

Abstract

Metal-organic frameworks (MOFs) have gained prominence through reticular chemistry, connecting building blocks to create specific structures. MOFs offer high surface areas, porosity, stability, and diverse functionalities. This makes them easily modifiable for various applications, evolving into complex architectures. Recent advancements in MOF-derived multi-shelled nanostructures are summarized herein. The advantages and disadvantages of these nanostructures over bare MOFs and single-shelled structures are discussed. The recent progress and potential of multi-shelled structures in energy storage applications are comprehensively explored. Challenges and prospects in this area are also outlined. © 2025 Wiley-VCH GmbH.

Original language	English
Article number	2500808
Journal	Small
Volume	21
Issue number	20
Online published	16 Apr 2025
DOIs	https://doi.org/10.1002/smll.202500808
Publication status	Published - 19 May 2025

Funding

This work was supported by the Hong Kong Innovation and Technology Commission (project number GHP/247/22GD).

Research Keywords

advantages/disadvantages
double-
energy storage
MOFs
quadruple-shelled
triple-

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title = "Recent Trend and Future Aspects of Metal-organic Framework-derived Multi-Shelled Nanomaterials for Energy Storage",

abstract = "Metal-organic frameworks (MOFs) have gained prominence through reticular chemistry, connecting building blocks to create specific structures. MOFs offer high surface areas, porosity, stability, and diverse functionalities. This makes them easily modifiable for various applications, evolving into complex architectures. Recent advancements in MOF-derived multi-shelled nanostructures are summarized herein. The advantages and disadvantages of these nanostructures over bare MOFs and single-shelled structures are discussed. The recent progress and potential of multi-shelled structures in energy storage applications are comprehensively explored. Challenges and prospects in this area are also outlined. {\textcopyright} 2025 Wiley-VCH GmbH.",

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author = "Iftikhar Hussain and Karanpal Singh and Mendhe, {Avinash C.} and Murugavel Kathiresan and Aslam, {Muhammad Kashif} and Ke-Juan Meng and Momang Tian and Khan, {Shahid Ali} and Zoubi, {Wail Al} and Kaili Zhang",

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AU - Hussain, Iftikhar

AU - Singh, Karanpal

AU - Mendhe, Avinash C.

AU - Kathiresan, Murugavel

AU - Aslam, Muhammad Kashif

AU - Meng, Ke-Juan

AU - Tian, Momang

AU - Khan, Shahid Ali

AU - Zoubi, Wail Al

AU - Zhang, Kaili

PY - 2025/5/19

Y1 - 2025/5/19

N2 - Metal-organic frameworks (MOFs) have gained prominence through reticular chemistry, connecting building blocks to create specific structures. MOFs offer high surface areas, porosity, stability, and diverse functionalities. This makes them easily modifiable for various applications, evolving into complex architectures. Recent advancements in MOF-derived multi-shelled nanostructures are summarized herein. The advantages and disadvantages of these nanostructures over bare MOFs and single-shelled structures are discussed. The recent progress and potential of multi-shelled structures in energy storage applications are comprehensively explored. Challenges and prospects in this area are also outlined. © 2025 Wiley-VCH GmbH.

AB - Metal-organic frameworks (MOFs) have gained prominence through reticular chemistry, connecting building blocks to create specific structures. MOFs offer high surface areas, porosity, stability, and diverse functionalities. This makes them easily modifiable for various applications, evolving into complex architectures. Recent advancements in MOF-derived multi-shelled nanostructures are summarized herein. The advantages and disadvantages of these nanostructures over bare MOFs and single-shelled structures are discussed. The recent progress and potential of multi-shelled structures in energy storage applications are comprehensively explored. Challenges and prospects in this area are also outlined. © 2025 Wiley-VCH GmbH.

KW - advantages/disadvantages

KW - double-

KW - energy storage

KW - MOFs

KW - quadruple-shelled

KW - triple-

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M3 - RGC 21 - Publication in refereed journal

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ER -

Recent Trend and Future Aspects of Metal-organic Framework-derived Multi-Shelled Nanomaterials for Energy Storage

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ITF: High Voltage Lithium Cobalt Oxide Electrode based on Aqueous Binder

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Recent Trend and Future Aspects of Metal-organic Framework-derived Multi-Shelled Nanomaterials for Energy Storage

Abstract

Funding

Research Keywords

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ITF: High Voltage Lithium Cobalt Oxide Electrode based on Aqueous Binder

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