Metal–Organic Frameworks in Action: Catalyzing the Future of Energy
In our recent review published in Catal, we present a comprehensive overview of the role of metal–organic frameworks (MOFs) as electrocatalysts in key electrooxidation reactions. These reactions—including oxygen evolution (OER), hydrogen oxidation (HOR), alcohol oxidation (AOR), urea oxidation (UOR), and glucose oxidation (GOR)—are central to advancing sustainable energy conversion and environmental remediation technologies.
Highlights of our review:
- Structural Versatility: MOFs offer highly tunable architectures, large surface areas, and atomically dispersed active sites, making them ideal platforms for electrocatalysis.
- Catalyst Design Strategies: We discuss how metal node engineering, ligand functionalization, and composite formation can significantly enhance catalytic activity, selectivity, and durability.
- Mechanistic Insights: Through both experimental and theoretical studies, we explore how reaction pathways vary with catalyst structure and operating conditions.
- Green Chemistry Applications: MOFs enable efficient transformation of biomass-derived molecules into value-added chemicals such as formic acid, contributing to carbon neutrality goals.
While MOFs have demonstrated remarkable promise, challenges remain in improving their electrochemical stability and scalability. We propose future directions including the development of conductive and robust MOFs, integration with synergistic materials, and the use of in situ characterization and computational modeling to guide rational catalyst design.
Authors & Affiliations:
- Kunpeng Yang, Yuanjun Liu* – School of Environmental and Chemical Engineering, Jiangsu University of Science and Technology, Zhenjiang, China
- Yingxin Wang, Yuxuan Jiang, Ran Wang*†, Huan Pang*† – School of Chemistry and Chemical Engineering, Yangzhou University, Yangzhou, China
- Guoxing Zhu – School of Chemistry and Chemical Engineering, Jiangsu University, Zhenjiang, China & Mudanjiang Normal University, Mudanjiang, China
(Corresponding authors: liuyuanjun@just.edu.cn, ranwang@yzu.edu.cn, huanpangchem@hotmail.com)
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Catal
Catal is an open access journal covering full spectrum of catalysis critical advances. From biocatalysts to heterogeneous catalysts, it integrates fundamental and applied sciences. Catal offers a primary platform for researchers and practitioners in the field.
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National Catalysis Conference 2025
The 22nd National Catalysis Conference, held in December 2025 in Xiamen, China, stands as the largest national academic event in the field of catalysis, bringing together leading scientists from academia and industry to discuss frontier research and emerging technologies across catalytic science.
In collaboration with several internationally recognized researchers from Xiamen University - the main organizer of the conference - Catal will publish a Special Issue featuring selected contributions from the meeting. This joint effort ensures high academic standards and showcases the scientific breadth and excellence presented at the conference.
Potential topics include, but are not limited to:
• Catalytic materials
• Thermocatalysis
• Electrocatalysis
• Biomass and CO₂ conversion
• Industrial catalysis
• Theoretical and computational catalysis
Publishing Model: Open Access
Deadline: Dec 31, 2026
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