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Fundamental studies of ruthenium species supported on boron nitride nanotubes: metal loading and pretreatment effects on CO oxidation

Authors
Choi, JinwonPophali, AmolKim, ByeongseokYoon, KwangsukKim, Thomas You-SeokSong, HocheolShim, Sang EunKim, JaewooKim, Taejin
Issue Date
Oct-2024
Publisher
Royal Society of Chemistry
Citation
Catalysis Science & Technology, v.14, no.21, pp 6198 - 6206
Pages
9
Indexed
SCIE
SCOPUS
Journal Title
Catalysis Science & Technology
Volume
14
Number
21
Start Page
6198
End Page
6206
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211957
DOI
10.1039/d4cy00945b
ISSN
2044-4753
2044-4761
Abstract
Multiwalled boron nitride nanotube (BNNT), as a catalyst support, has become one of the promising materials due to its high oxidation resistance and thermal stability. In this work, ruthenium (Ru) supported on BNNT catalysts with different metal loadings and treatment conditions was investigated for CO oxidation as a model reaction. To understand the physicochemical properties of the prepared samples, a suite of techniques, including FTIR, UV-Raman, SEM, TEM, and XPS, was utilized. The results showed that the RuOx species were located on both the interior and the exterior surfaces of the BNNT, and an increase in metal loading led to increased active sites. 1 wt% RuOx/BNNT (oxidized) exhibited better catalytic activity than 1 wt% Ru/BNNT (reduced), indicating that treatment conditions significantly affect the catalytic properties. Reaction conditions, such as GHSV and the O2/CO ratio, were varied to further investigate the external mass transfer limitations and reaction mechanism of the 1 wt% RuOx/BNNT catalyst. The peculiar tubular morphology of the BNNT resulted in negligible external mass transfer limitation, and the catalyst might primarily follow the Eley–Rideal (ER) mechanism over the Langmuir–Hinshelwood (LH) mechanism.
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Song, Hocheol
COLLEGE OF ENGINEERING (DEPARTMENT OF EARTH RESOURCES AND ENVIRONMENTAL ENGINEERING)
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