Single atom catalysts for selective methane oxidation to oxygenates
Direct conversion of methane (CH4) to C1–2 liquid oxygenates is a captivating approach to
lock carbons in transportable value-added chemicals, while reducing global warming …
lock carbons in transportable value-added chemicals, while reducing global warming …
Role of H2O in Catalytic Conversion of C1 Molecules
Due to their role in controlling global climate change, the selective conversion of C1
molecules such as CH4, CO, and CO2 has attracted widespread attention. Typically, H2O …
molecules such as CH4, CO, and CO2 has attracted widespread attention. Typically, H2O …
Disentangling local interfacial confinement and remote spillover effects in oxide–oxide interactions
Supported oxides are widely used in many important catalytic reactions, in which the
interaction between the oxide catalyst and oxide support is critical but still remains elusive …
interaction between the oxide catalyst and oxide support is critical but still remains elusive …
Light-Induced Dynamic Restructuring of Cu Active Sites on TiO2 for Low-Temperature H2 Production from Methanol and Water
The structure and configuration of reaction centers, which dominantly govern the catalytic
behaviors, often undergo dynamic transformations under reaction conditions, yet little is …
behaviors, often undergo dynamic transformations under reaction conditions, yet little is …
Enhancing CO2 Electroreduction Performance through Si-Doped CuO: Stabilization of Cu+/Cu0 Sites and Improved C2 Product Selectivity
Cu-based catalysts leveraging Cu+/Cu0 active sites have emerged as pivotal for
synthesizing essential hydrocarbons and alcohols in electrochemical CO2 reduction, such …
synthesizing essential hydrocarbons and alcohols in electrochemical CO2 reduction, such …
Silver and copper dual single atoms boosting direct oxidation of methane to methanol via synergistic catalysis
Rationally constructing atom‐precise active sites is highly important to promote their catalytic
performance but still challenging. Herein, this work designs and constructs ZSM‐5 …
performance but still challenging. Herein, this work designs and constructs ZSM‐5 …
High-Pressure Electro-Fenton Driving CH4 Conversion by O2 at Room Temperature
Y Song, X Yang, H Liu, S Liang, Y Cai… - Journal of the …, 2024 - ACS Publications
Electrochemical conversion of CH4 to easily transportable and value-added liquid fuels is
highly attractive for energy-efficient CH4 utilization, but it is challenging due to the low …
highly attractive for energy-efficient CH4 utilization, but it is challenging due to the low …
Efficient catalysts of surface hydrophobic Cu-BTC with coordinatively unsaturated Cu (I) sites for the direct oxidation of methane
W Li, Z Li, H Zhang, P Liu, Z Xie… - Proceedings of the …, 2023 - National Acad Sciences
Selective oxidation of methane to organic oxygenates over metal–organic frameworks
(MOFs) catalysts at low temperature is a challenging topic in the field of C1 chemistry …
(MOFs) catalysts at low temperature is a challenging topic in the field of C1 chemistry …
Activation and Conversion of Methane to Syngas over ZrO2/Cu(111) Catalysts near Room Temperature
Enzymatic systems achieve the catalytic conversion of methane at room temperature under
mild conditions. In this study, varying thermodynamic and kinetic parameters, we show that …
mild conditions. In this study, varying thermodynamic and kinetic parameters, we show that …
Microscopic Investigation of H2 Reduced CuOx/Cu(111) and ZnO/CuOx/Cu(111) Inverse Catalysts: STM, AP-XPS, and DFT Studies
Understanding the reduction mechanism of ZnO/CuO x interfaces by hydrogen is of great
importance in advancing the performance of industrial catalysts used for CO and CO2 …
importance in advancing the performance of industrial catalysts used for CO and CO2 …