Chemical loo**-based energy transformation via lattice oxygen modulated selective oxidation
Modulating anionic oxygen in metal oxides offers exceptional opportunities for energy
material synthesis via redox loo**; however, several challenges such as overoxidation …
material synthesis via redox loo**; however, several challenges such as overoxidation …
A review of activating lattice oxygen of metal oxides for catalytic reactions: Reaction mechanisms, modulation strategies of activity and their practical applications
H Du, H Luo, M Jiang, X Yan, F Jiang… - Applied Catalysis A …, 2023 - Elsevier
Lattice oxygen is increasingly attracting the attention of researchers as an active site in metal
oxide catalysts. This paper reviews the strategies used in recent years to regulate the activity …
oxide catalysts. This paper reviews the strategies used in recent years to regulate the activity …
Mixed oxides as multi-functional reaction media for chemical loo** catalysis
Over the past two decades, chemical loo** combustion (CLC) has been extensively
investigated as a promising means to produce electric power while generating a …
investigated as a promising means to produce electric power while generating a …
Catalytic performance and mechanism of A-site vacancy deficient perovskite catalyst over tar cracking during biomass pyrolysis
D Gai, J Shi, X Cui, P Zhao, W Zuo, J Zhang… - Journal of Cleaner …, 2023 - Elsevier
Tar from biomass pyrolysis is an urgent problem to be solved for the large utilization of
biomass pyrolysis technology. This work focuses on the activity evaluation of perovskite …
biomass pyrolysis technology. This work focuses on the activity evaluation of perovskite …
Alkali-metal enhanced LaMnO3 perovskite oxides for chemical loo** oxidative dehydrogenation of ethane
W Ding, K Zhao, S Jiang, Z Zhao, Y Cao… - Applied Catalysis A …, 2021 - Elsevier
Highlights•The CL-ODH utilize the lattice oxygen species to convert ethane into
ethylene.•Alkali promoters suppress Mn 4+ and induces electron-rich intermediate oxygen …
ethylene.•Alkali promoters suppress Mn 4+ and induces electron-rich intermediate oxygen …
Controlling lattice oxygen activity of oxygen carrier materials by design: a review and perspective
W Liu - Reaction Chemistry & Engineering, 2021 - pubs.rsc.org
Chemical loo** is a class of emerging process intensification technologies that enable
emission reduction of a wide range of chemical processes. The performance of oxygen …
emission reduction of a wide range of chemical processes. The performance of oxygen …
Net Electronic Charge as an Effective Electronic Descriptor for Oxygen Release and Transport Properties of SrFeO3-Based Oxygen Sorbents
Perovskite oxides, as oxygen sorbents, exhibit excellent potential in thermochemical redox
applications such as chemical loo** air separation (CLAS), resulting from their excellent …
applications such as chemical loo** air separation (CLAS), resulting from their excellent …
Facet-Dependent Oxygen Mobility and Reaction Pathways for Oxidative Dehydrogenation of 1-Butene over Bi2MoO6
Q Zhao, X Hou, X Liu, M Chong, D Cheng, F Chen… - ACS …, 2024 - ACS Publications
The crystal facet effect is a critical factor for catalytic reactions on metal oxides due to the
different atomic arrangements and physicochemical properties of diverse facets. Based on a …
different atomic arrangements and physicochemical properties of diverse facets. Based on a …
Lattice oxygen modulation for efficient chemical loo** redox oxidative cracking of cycloalkane to light olefins: The influence of the active sites configuration
L Chen, J Chi, L Chen, W ** steam methane reforming
Y Zheng, L Zhao, Y Wang, Y Wang, H Wang… - Fuel Processing …, 2021 - Elsevier
Chemical loo** steam methane reforming (CL-SMR) is a promising pathway for producing
syngas and hydrogen. A series of La 1-x MnCu x O 3 (x= 0, 0.05, 0.1, 0.15, 0.2) perovskites …
syngas and hydrogen. A series of La 1-x MnCu x O 3 (x= 0, 0.05, 0.1, 0.15, 0.2) perovskites …