Unlocking the Catalytic Potential of TiO2-Supported Pt Single Atoms for the Reverse Water-Gas Shift Reaction by Altering Their Chemical Environment.
Linxiao Chen,Raymond R. Unocic,Adam S. Hoffman,Jiyun Hong,Adriano H. Braga,Zhenghong Bao,Simon R. Bare,János Szanyi +7 more
- Vol. 1, Iss: 7, pp 977-986
TLDR
A reduction–oxidation cycle that induces nearly 5-fold activity enhancement on Pt/TiO2 SACs for the reverse water–gas shift (rWGS) reaction is reported, offering desired understanding on the rarely explored dynamic chemical environment of supported single metal atoms and its catalytic consequences.Abstract:
Single-atom catalysts (SACs) often exhibit dynamic responses to the reaction and pretreatment environment that affect their activity. The lack of understanding of these behaviors hinders the development of effective, stable SACs, and makes their investigations rather difficult. Here we report a reduction-oxidation cycle that induces nearly 5-fold activity enhancement on Pt/TiO2 SACs for the reverse water-gas shift (rWGS) reaction. We combine microscopy (STEM) and spectroscopy (XAS and IR) studies with kinetic measurements, to convincingly show that the low activity on the fresh SAC is a result of limited accessibility of Pt single atoms (Pt1) due to high Pt-O coordination. The reduction step mobilizes Pt1, forming small, amorphous, and unstable Pt aggregates. The reoxidation step redisperses Pt into Pt1, but in a new, less O-coordinated chemical environment that makes the single metal atoms more accessible and, consequently, more active. After the cycle, the SAC exhibits superior rWGS activity to nonatomically dispersed Pt/TiO2. During the rWGS, the activated Pt1 experience slow deactivation, but can be reactivated by mild oxidation. This work demonstrates a clear picture of how the structural evolution of Pt/TiO2 SACs leads to ultimate catalytic efficiency, offering desired understanding on the rarely explored dynamic chemical environment of supported single metal atoms and its catalytic consequences.read more
Citations
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Disordered, Sub-Nanometer Ru Structures on CeO2 are Highly Efficient and Selective Catalysts in Polymer Upcycling by Hydrogenolysis
Lin-Xing Chen,Laura C. Meyer,Libor Kovarik,Debora Motta Meira,Xavier Isidro Pereira-Hernández,Hong-Xin Shi,Konstantin Khivantsev,Oliver Y. Gutiérrez,János Szanyi +8 more
TL;DR: In this article , low-loading Ru/CeO2 exhibits remarkable catalytic performance in the hydrogenolysis of polypropylene (PP), polyethylene (PE), and n-C16H34.
Journal ArticleDOI
Recent Advances on Single‐Atom Catalysts for CO2 Reduction
TL;DR: In this article , the authors provide a systematic reference for developing SACs in advanced CO2 catalytic conversion, in particular, the strategies of enhancing CO2 reduction performance have been summarized to provide deep insight into designing and developing more efficient SAC.
Journal ArticleDOI
Plasma-Catalytic CO2 Hydrogenation over a Pd/ZnO Catalyst: In Situ Probing of Gas-Phase and Surface Reactions
Yuhai Sun,Jun Wu,Yaolin Wang,Jingjing Li,Jonathan Harding,Shengpeng Mo,Limin Chen,Peirong Chen,Min Fu,Daiqi Ye,Jun Huang,Xin Tu +11 more
TL;DR: In this paper , the authors investigated CO2 hydrogenation over Pd/ZnO and ZnO in a tubular dielectric barrier discharge (DBD) reactor at ambient pressure.
Journal ArticleDOI
Recent Progress in Thermal Conversion of CO2 via Single‐Atom Site Catalysis
TL;DR: In this article , single-atom site catalysis (SAC) has become increasingly systematic during the last few years, and high performance and distinctive selectivity that SAC exhibits attribute to the isolated structure a large extent.
Journal ArticleDOI
Noble-metal based single-atom catalysts for the water-gas shift reaction
TL;DR: In this article , the authors summarize the recent advances of typical Au and Pt-group-metal (PGM) based single-atom catalysts and their applications in the water-gas shift (WGS) reaction in the past two decades.
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