Efficient and sustainable H2 production from aqueous-phase reforming of methanol over Cu@CA-Val catalyst at low temperatures

Li, Jiajin; Lu, Minglei; Ge, Yuxin; Lu, Weiwei; Liu, Zidi; Xu, Hongde; Zhang, Yu; Li, Zhihui; Zheng, Zhuoyu; Gao, Pengxiang; Zhang, Qian; Wang, Tiejun

doi:10.1016/j.ijhydene.2024.05.198

International Journal of Hydrogen Energy

2024

DOI: 10.1016/j.ijhydene.2024.05.198

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Efficient and sustainable H2 production from aqueous-phase reforming of methanol over Cu@CA-Val catalyst at low temperatures

Jiajin Li,

Minglei Lu,

Yuxin Ge

et al.

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Cited by 3 publications

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Ce-modified Cu nanoparticles with N-doped carbon encapsulation for efficient H2 production from aqueous phase reforming of methanol at low temperatures

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Ce-modified Cu nanoparticles with N-doped carbon encapsulation for efficient H2 production from aqueous phase reforming of methanol at low temperatures

Zheng,

Ge,

et al. 2025

Fuel

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Stable Cu/Cu₂O/CuN₃@NC Catalysts for Aqueous Phase Reforming of Methanol

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Thermal and Sono—Aqueous Reforming of Alcohols for Sustainable Hydrogen Production

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Zheng,

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Molecules

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Hydrogen is a clean-burning fuel with water as its only by-product, yet its widespread adoption is hampered by logistical challenges. Liquid organic hydrogen carriers, such as alcohols from sustainable sources, can be converted to hydrogen through aqueous-phase reforming (APR), a promising technology that bypasses the energy-intensive vaporization of feedstocks. However, the hydrothermal conditions of APR pose significant challenges to catalyst stability, which is crucial for its industrial deployment. This review focuses on the stability of catalysts in APR, particularly in sustaining hydrogen production over extended durations or multiple reaction cycles. Additionally, we explore the potential of ultrasound-assisted APR, where sonolysis enables hydrogen production without external heating. Although the technological readiness of ultrasound-assisted or -induced APR currently trails behind thermal APR, the development of catalysts optimized for ultrasound use may unlock new possibilities in the efficient hydrogen production from alcohols.

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Efficient and sustainable H2 production from aqueous-phase reforming of methanol over Cu@CA-Val catalyst at low temperatures

Cited by 3 publications

References 41 publications

Ce-modified Cu nanoparticles with N-doped carbon encapsulation for efficient H2 production from aqueous phase reforming of methanol at low temperatures

Ce-modified Cu nanoparticles with N-doped carbon encapsulation for efficient H2 production from aqueous phase reforming of methanol at low temperatures

Stable Cu/Cu₂O/CuN₃@NC Catalysts for Aqueous Phase Reforming of Methanol

Thermal and Sono—Aqueous Reforming of Alcohols for Sustainable Hydrogen Production

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Efficient and sustainable H2 production from aqueous-phase reforming of methanol over Cu@CA-Val catalyst at low temperatures

Cited by 3 publications

References 41 publications

Ce-modified Cu nanoparticles with N-doped carbon encapsulation for efficient H2 production from aqueous phase reforming of methanol at low temperatures

Ce-modified Cu nanoparticles with N-doped carbon encapsulation for efficient H2 production from aqueous phase reforming of methanol at low temperatures

Stable Cu/Cu2O/CuN3@NC Catalysts for Aqueous Phase Reforming of Methanol

Thermal and Sono—Aqueous Reforming of Alcohols for Sustainable Hydrogen Production

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Product

Resources

About

Stable Cu/Cu₂O/CuN₃@NC Catalysts for Aqueous Phase Reforming of Methanol