相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。Highly active Ni/CeO2 catalyst for CO2 methanation: Preparation and characterization
Ning Rui et al.
APPLIED CATALYSIS B-ENVIRONMENTAL (2021)
Fossil CO2 emissions in the post-COVID-19 era
Corinne Le Quere et al.
NATURE CLIMATE CHANGE (2021)
Methane Coupling to Ethylene and Longer-Chain Hydrocarbons by Low-Energy Electrical Discharge in Microstructured Reactors
Yu Miao et al.
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH (2021)
CO2 electrolysis to multicarbon products at activities greater than 1 A cm-2
F. Pelayo Garcia de Arquer et al.
SCIENCE (2020)
Promoting CO2 methanation via ligand-stabilized metal oxide clusters as hydrogen-donating motifs
Yuhang Li et al.
NATURE COMMUNICATIONS (2020)
Dielectric barrier discharge plasma assisted CO2 conversion: understanding the effects of reactor design and operating parameters
Na Lu et al.
JOURNAL OF PHYSICS D-APPLIED PHYSICS (2019)
Selective visible-light-driven photocatalytic CO2 reduction to CH4 mediated by atomically thin CuIn5S8 layers
Xiaodong Li et al.
NATURE ENERGY (2019)
Domino electroreduction of CO2 to methanol on a molecular catalyst
Yueshen Wu et al.
NATURE (2019)
CO2 reduction in wet ionic liquid solution in microscale-based electrochemical reactor
Yu Miao et al.
CHEMICAL ENGINEERING JOURNAL (2018)
CO2 electroreduction to ethylene via hydroxide-mediated copper catalysis at an abrupt interface
Cao-Thang Dinh et al.
SCIENCE (2018)
Atomically dispersed Ni(i) as the active site for electrochemical CO2 reduction
Hong Bin Yang et al.
NATURE ENERGY (2018)
Direct conversion of CO2 into liquid fuels with high selectivity over a bifunctional catalyst
Peng Gao et al.
NATURE CHEMISTRY (2017)
CO2 Activation over Catalytic Surfaces
Andrea Alvarez et al.
CHEMPHYSCHEM (2017)
An investigation of CO2 splitting using nanosecond pulsed corona discharge: effect of argon addition on CO2 conversion and energy efficiency
M. S. Moss et al.
PLASMA SOURCES SCIENCE & TECHNOLOGY (2017)
Plasma-photocatalytic conversion of CO2 at low temperatures: Understanding the synergistic effect of plasma-catalysis
Danhua Mei et al.
APPLIED CATALYSIS B-ENVIRONMENTAL (2016)
Direct Capture of CO2 from Ambient Air
Eloy S. Sanz-Perez et al.
CHEMICAL REVIEWS (2016)
Reduction of CO2 with hydrogen in a non-equilibrium microwave plasma reactor
Javier F. de la Fuente et al.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY (2016)
CLIMATE ECONOMICS Opportunities for advances in climate change economics
M. Burke et al.
SCIENCE (2016)
Carbon capture, storage and utilisation technologies: A critical analysis and comparison of their life cycle environmental impacts
Rosa M. Cuellar-Franca et al.
JOURNAL OF CO2 UTILIZATION (2015)
Analysis of a Microplasma Fuel Reformer with a Carbon Dioxide Decomposition Reaction
Peter J. Lindner et al.
ENERGY & FUELS (2013)
Depletion of fossil fuels and anthropogenic climate change-A review
Mikael Hook et al.
ENERGY POLICY (2013)
The urgency of the development of CO2 capture from ambient air
Klaus S. Lackner et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2012)
Ionic Liquid-Mediated Selective Conversion of CO2 to CO at Low Overpotentials
Brian A. Rosen et al.
SCIENCE (2011)
Atmospheric carbon dioxide removal: long-term consequences and commitment
Long Cao et al.
ENVIRONMENTAL RESEARCH LETTERS (2010)
Microplasmas for nanomaterials synthesis
Davide Mariotti et al.
JOURNAL OF PHYSICS D-APPLIED PHYSICS (2010)
Future CO2 Emissions and Climate Change from Existing Energy Infrastructure
Steven J. Davis et al.
SCIENCE (2010)
Why Capture CO2 from the Atmosphere?
David W. Keith
SCIENCE (2009)
Nonequilibrium and effect of gas mixtures in an atmospheric microplasma
Davide Mariotti
APPLIED PHYSICS LETTERS (2008)
Synthesis of indium tin oxide (ITO) and fluorine-doped tin oxide (FTO) nano-powder by sol-gel combustion hybrid method
Chi-Hwan Han et al.
MATERIALS LETTERS (2007)