Dehydrogenation of homocyclic liquid organic hydrogen carriers (LOHCs) over Pt supported on an ordered pore structure of 3-D cubic mesoporous KIT-6 silica

Authors
Ahn, Chang-IlKwak, YeonsuKim, Ah-ReumJang, MunjeongBadakhsh, ArashCha, JunyoungKim, YongminJo, Young SukJeong, HyangsooChoi, Sun HeeNam, Suk WooYoon, Chang WonSohn, Hyuntae
Issue Date
2022-06
Publisher
Elsevier BV
Citation
Applied Catalysis B: Environmental, v.307
Abstract
Pt supported on ordered mesoporous silica (KIT-6) catalyst was examined for the dehydrogenation of homocyclic liquid organic hydrogen carriers (LOHCs, 1: MCH, 2: hydrogenated biphenyl-based eutectic mixture (H-BPDM)) conditions. The longer pore-residence time of the MCH molecules in the 3D bicontinuous pore structure of the Pt/ KIT-6 catalyst strongly affected the catalytic activity because a higher MCH concentration was achieved in the vicinity of the Pt active sites. Pt/KIT-6 catalyst exhibited a higher surface area, pore volume, and Pt dispersion with narrower particle size distribution (average Pt particle size: -1.3 nm). Therefore, higher LOHC conversion with faster hydrogen production occurred, with a higher hydrogen selectivity over Pt/KIT-6 compared with Pt/ SiO2 and Pt/Al2O3. Long-term experiment results indicated that the Pt/KIT-6 catalytic activity was stable over the reaction time than that of the other catalysts. No significant structural collapse occurred in KIT-6 during the dehydrogenation. Carbon coking was observed for all three samples.
Keywords
DODECAHYDRO-N-ETHYLCARBAZOLE; CATALYTIC DEHYDROGENATION; SELECTIVE OXIDATION; SBA-15 SYNTHESIS; METHYLCYCLOHEXANE; PLATINUM; STORAGE; RELEASE; SIZE; PERFORMANCE; Methylcyclohexane; Liquid organic hydrogen carriers; Dehydrogenation; KIT-6; Ordered mesoporous silica
ISSN
0926-3373
URI
https://pubs.kist.re.kr/handle/201004/115093
DOI
10.1016/j.apcatb.2022.121169
Appears in Collections:
KIST Article > 2022
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