Design of non-noble metal catalysts for non-oxidative alkane dehydrogenation: a review

Changxu Wang; Zhineng Chen; Zhaobo Fan; Yufeng Li; Huanhuan He; Bing Liu; Yuebing Xu; Xiaohao Liu

doi:10.1093/ce/zkaf022

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Design of non-noble metal catalysts for non-oxidative alkane dehydrogenation: a review

更新时间：2026-02-06

- Design of non-noble metal catalysts for non-oxidative alkane dehydrogenation: a review
- Design of non-noble metal catalysts for non-oxidative alkane dehydrogenation: a review
- 清洁能源（英文） 2025年第5期
- 作者机构：
  
  Department of Chemical Engineering, School of Chemical and Material Engineering, Jiangnan University
- 作者简介：
- 基金信息：
  
  None declared.
- DOI：10.1093/ce/zkaf022
  中图分类号：
- 纸质出版：2025
- 稿件说明：
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Changxu Wang, Zhineng Chen, Zhaobo Fan, 等. Design of non-noble metal catalysts for non-oxidative alkane dehydrogenation: a review[J]. 清洁能源（英文）, 2025,(5).

Changxu Wang, Zhineng Chen, Zhaobo Fan, Yufeng Li, Huanhuan He, Bing Liu, Yuebing Xu, Xiaohao Liu, Design of non-noble metal catalysts for non-oxidative alkane dehydrogenation: a review, Clean Energy, Volume 9, Issue 5, October 2025, Pages 22–38, https://doi.org/10.1093/ce/zkaf022
Changxu Wang, Zhineng Chen, Zhaobo Fan, 等. Design of non-noble metal catalysts for non-oxidative alkane dehydrogenation: a review[J]. 清洁能源（英文）, 2025,(5). DOI： 10.1093/ce/zkaf022.

Changxu Wang, Zhineng Chen, Zhaobo Fan, Yufeng Li, Huanhuan He, Bing Liu, Yuebing Xu, Xiaohao Liu, Design of non-noble metal catalysts for non-oxidative alkane dehydrogenation: a review, Clean Energy, Volume 9, Issue 5, October 2025, Pages 22–38, https://doi.org/10.1093/ce/zkaf022 DOI：

摘要

Abstract

Light olefins are one of the most important raw materials for the production of chemicals and energy substances. The dehydrogenation of light alkanes is an important industrial pathway for the production of light olefins

particularly in the context of the shale gas revolution and the growing global demand for olefin downstream commodity chemicals. Traditional Pt-based and Cr-based catalysts are not suitable for the present demands in the context of green development due to their high cost and non-removable poisonous properties. Non-noble metal catalysts have received increasing attention due to their wide distribution and low cost. In this review

we comprehensively summarize recent advances in the design of non-noble metal advanced catalysts for alkane dehydrogenation as well as new insights into structure-performance relationships and future challenges in moving to actual industrial application.

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references

Yun JH, Lobo RF. Radical cation intermediates in propane dehydrogenation and propene hydrogenation over H-[Fe] zeolites. J Phys Chem C 2014;118:27292–300. 10.1021/jp504453n

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