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Received July 18, 2021
Accepted August 31, 2021
articles This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Recent progress in dehydrogenation catalysts for heterocyclic and homocyclic liquid organic hydrogen carriers

Yeongin Jo1 Jinho Oh2 Donghyeon Kim1 Ji Hoon Park2 Joon Hyun Baik3† Young-Woong Suh1 4†
1Department of Chemical Engineering, Hanyang University, Seoul 04763, Korea 2Center for Environment & Sustainable Resources Research, Korea Research Institute of Chemical Technology, Daejeon 34114, Korea 3Department of Chemical and Biological Engineering, Sookmyung Women’s University, Seoul 04310, Korea 4Research Institute of Industrial Science, Hanyang University, Seoul 04763, Korea
Korean Journal of Chemical Engineering, January 2022, 39(1), 20-37(18), 10.1007/s11814-021-0947-5
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Abstract

Liquid organic hydrogen carriers (LOHC) are recently recognized as an attractive solution for H2 storage and transportation. Among several challenging tasks for practical application, the most stringent limitations stem from the dehydrogenation reaction requiring high temperatures thermodynamically. Unlike previous reviews focusing on the LOHC concept, LOHC molecules, and process integration, this review highlights the state-of-the-art catalysts reported for the dehydrogenation of homocyclic and heterocyclic LOHC molecules. In the conversion of heterocyclic LOHC, Pd-based catalysts overnumbered Pt-based ones owing to preferential adsorption of heteroatoms onto the Pd surface. However, because of low stability of C-heteroatom bonds, catalyst development needs to concentrate on inhibiting the generation of byproducts while maintaining superior performance under mild conditions. In the case of homocyclic LOHC, Pt is overwhelmed in single metal and bimetallic catalysts owing to pronounced C-H bond cleavage. Nevertheless, the ability of Pt in C-C bond cleavage should be diminished for higher H2 selectivity, better catalyst stability, and steady LOHC recyclability, which is possible by tuning electronic and geometric effects of main active metals, as well as adding metal promoters. Consequently, great efforts will be diversely devoted to achieving an active and stable dehydrogenation catalyst for future LOHC demonstration.

Keywords

Liquid Organic Hydrogen Carriers Dehydrogenation Heterogeneous Catalysts

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