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Wassem Aftab

University of Birmingham

Edgbaston, B15 2TT

United Kingdom

SCHOLARLY PAPERS

5

DOWNLOADS

170

TOTAL CITATIONS

0

Scholarly Papers (5)

1.

Structurally Engineered Nanocomposite Sorbent Enables High-Performance Thermochemical Energy Storage for Electric Vehicle Applications

Number of pages: 36 Posted: 08 Sep 2025
University of Birmingham, University of Birmingham, University of Birmingham, University of Birmingham, University of Birmingham, University of Birmingham and University of Birmingham
Downloads 46 (1,121,190)

Abstract:

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Innovative thermal battery, salt-in-matrix thermochemical storage materials, Ultra-high energy and power density, Microwave-assisted rapid thermal charging, Extended driving range for EVs.

2.

e-Thermal Bank: An Innovative Solution to Revolutionize the Electrification of Heat

Number of pages: 25 Posted: 19 Feb 2025
University of Birmingham, University of Birmingham, University of Birmingham, University of Birmingham, University of Birmingham, University of Birmingham and Independent
Downloads 45 (1,121,190)

Abstract:

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e-Thermal Bank, Sorption thermochemical energy storage materials, High energy density, Electrification of Heat, High energy efficiency

3.

Accelerating Electro-Thermochemical Energy Storage Via Additive Manufacturing

Number of pages: 19 Posted: 15 Jul 2025
University of Birmingham, University of Birmingham, University of Birmingham, University of Birmingham and University of Birmingham
Downloads 27 (1,372,601)

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Additive manufacturing, thermochemical energy storage, Rapid sorption dynamics, Direct electrothermal charging, Ultra-high energy density

4.

Form-Stable Metal Ion Coordination Organic Sorbent Aerogel and its Application in Low Temperature Microwave-Powered Sorption Thermochemical Energy Storage

Number of pages: 22 Posted: 20 Oct 2024
Qiqiu Huang, Wassem Aftab, Yi Cheng and Yongliang Li
University of Birmingham, University of Birmingham, University of Birmingham and University of Birmingham
Downloads 27 (1,372,601)

Abstract:

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Thermal energy storage, sorption thermochemical energy storage, composite aerogel, structure stability, microwave desorption

5.

Highly Efficient Sorption Cr3+ Metal Ion Coordination Organic Aerogel with Operational Stability for All-Seasons Heating and Cooling Thermal Management

Number of pages: 26 Posted: 21 Oct 2024
University of Birmingham, University of Birmingham, Shanghai Jiao Tong University (SJTU) - Department of Electrical Engineering, Guangdong University of Technology, affiliation not provided to SSRN, University of Birmingham and University of Birmingham
Downloads 25 (1,385,945)

Abstract:

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Sorption thermochemical energy storage materials, High energy density, Pre-heating performance, structural stability, Battery thermal management