Crystal Face‐Dependent Behavior of Single‐Atom Pt: Construct of SA‐FLP Dual Active Sites for Efficient NO2 Detection

Yucheng Ou; Bing Wang; Nana Xu; Quzhi Song; Tao Liu; Hui Xu; Fuwen Wang; Yingde Wang

doi:10.1002/advs.202402038

Advanced Science (Aug 2024)

Crystal Face‐Dependent Behavior of Single‐Atom Pt: Construct of SA‐FLP Dual Active Sites for Efficient NO2 Detection

Yucheng Ou,
Bing Wang,
Nana Xu,
Quzhi Song,
Tao Liu,
Hui Xu,
Fuwen Wang,
Yingde Wang

Affiliations

Yucheng Ou: Science and Technology on Advanced Ceramic Fiber and Composites Laboratory College of Aerospace Science and Engineering National University of Defense Technology Changsha 410073 China
Bing Wang: Science and Technology on Advanced Ceramic Fiber and Composites Laboratory College of Aerospace Science and Engineering National University of Defense Technology Changsha 410073 China
Nana Xu: Science and Technology on Advanced Ceramic Fiber and Composites Laboratory College of Aerospace Science and Engineering National University of Defense Technology Changsha 410073 China
Quzhi Song: Science and Technology on Advanced Ceramic Fiber and Composites Laboratory College of Aerospace Science and Engineering National University of Defense Technology Changsha 410073 China
Tao Liu: Science and Technology on Advanced Ceramic Fiber and Composites Laboratory College of Aerospace Science and Engineering National University of Defense Technology Changsha 410073 China
Hui Xu: Science and Technology on Advanced Ceramic Fiber and Composites Laboratory College of Aerospace Science and Engineering National University of Defense Technology Changsha 410073 China
Fuwen Wang: Science and Technology on Advanced Ceramic Fiber and Composites Laboratory College of Aerospace Science and Engineering National University of Defense Technology Changsha 410073 China
Yingde Wang: Science and Technology on Advanced Ceramic Fiber and Composites Laboratory College of Aerospace Science and Engineering National University of Defense Technology Changsha 410073 China

DOI: https://doi.org/10.1002/advs.202402038
Journal volume & issue: Vol. 11, no. 29
pp. n/a – n/a

Abstract

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Abstract The strong potential of platinum single atom (PtSA) in gas sensor technology is primarily attributed to its high atomic economy. Nevertheless, it is imperative to conduct further exploration to understand the impact of PtSA on the active sites. In this study, the evolution of PtSA on (100)CeO2 and (111)CeO2 is examined, revealing notable disparities in the position and activity of surface PtSA on different crystal planes. The PtSA in (100)CeO2 surface can enhance the stability of Ce3+ and construct a frustrated Lewis pair (FLP) to form a double active site by combining the steric hindrance effect of oxygen vacancies, which increases the response value from 1.8 to 27 and reduce the response‐recovery time from 140–192 s to 25–26 s toward five ppm NO2 at room temperature. Conversely, PtSA tends to bind to terminal oxygen on the surface of (111)CeO2 and become an independent reaction site. The response value of PtSA‐(111)CeO2 surface only increased from 1.6 to 3.8. This research underscores the correlation between single atoms and crystal plane effects, laying the groundwork for designing and synthesizing ultra‐stable and efficient gas sensors.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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