CO2 Conversion and Utilization

systematically summarize the advances of CO2 photo/electro-conversion and utilization, involving the preparation methods and physicochemical properties of various catalytic materials

Autorentext
Zhicheng Zhang is currently a Professor of Tianjin University, China. He obtained his Ph.D. degree from China University of Petroleum (Beijing) in 2012. Then he worked as a postdoctoral researcher at Tsinghua University. In 2014, he worked as a senior research fellow at Nanyang Technological University, Singapore. In 2019, he joined Tianjin University as a full Professor. His research interests focus on the design and synthesis of functional metal-based nanomaterials and their applications in energy conversion and catalysis. To date, he has published more than 120 peer-reviewed papers. Now he is the associate editor of SmartMat, and editorial board member of Nano Research, Chinese Chemical Letters, and Rare Metals, etc.

Klappentext

Comprehensive overview of current development of various catalysts in CO2 conversion and utilization through photocatalytic and electrochemical methods CO2 Conversion and Utilization systematically summarizes the development of CO2 photo- and electro-conversion and utilization, especially the reaction mechanism, engineering and technology of testing, and preparation methods and physicochemical properties of various catalytic materials. The rational design and preparation of catalysts, development of characterization technologies, and in-depth understanding of catalytic mechanisms are systematically discussed. In particular, the various parameters influencing the photocatalytic and electrochemical CO2 reduction are emphasized. The underlying challenges and perspectives for the future development of efficient catalysts for CO2 reduction to specific chemicals and fuels are discussed at the end of the text. Written by a highly qualified author with significant experience in the field, CO2 Conversion and Utilization includes information on:

• Measurement systems and parameters for CO2 photo/electro-conversion, CO2 photo/electro-conversion mechanism, and Cu-based and Cu-free metal materials for electrocatalytic CO2 reduction
• Organic-inorganic, metal organic framework, and covalent organic framework hybrid materials for CO2 photo/electro-conversion
• Single/dual-atom catalysts, homogeneous catalysts, and high-entropy alloys for CO2 photo/electro-conversion

• Semiconductor composite and carbon-based materials for photocatalytic CO2 reduction, novel routes for CO2 utilization via metal-CO2 batteries, and CO2 conversion into long-chain compounds Providing comprehensive coverage of the subject, CO2 Conversion and Utilization is of high interest for scientific researchers as well as engineers and technicians in industry, including but not limited to photochemists, electrochemists, environmental chemists, catalytic chemists, chemists in industry, and inorganic chemists.

  Inhalt
  1 Measurement Systems and Parameters for CO2 Photo/Electro-Conversion
  2 CO2 Photo/Electro-Conversion Mechanism
  3 Cu-Based Metal Materials for Electrocatalytic CO2 Reduction
  4 Cu-Free Metal Materials for Electrocatalytic CO2 Reduction
  5 Organic-Inorganic Hybrid Materials for CO2 Photo/Electro-Conversion
  6 Metal Organic Framework Materials for CO2 Photo/Electro-Conversion
  7 Covalent Organic Framework Materials for CO2 Photo/Electro-Conversion
  8 Single/Dual-Atom Catalysts for CO2 Photo/Electro-Conversion
  9 Homogeneous Catalytic CO2 Photo/Electro-Conversion
  10 High-Entropy Alloys for CO2 Photo/Electro-Conversion
  11 Semiconductor Composite Materials for Photocatalytic CO2 Reduction
  12 Carbon-based Materials for CO2 Photo/Electro-Conversion
  13 Metal-CO2 Batteries: Novel Routes for CO2 Utilization
  14 CO2 Conversion into Long-Chain Compounds
  15 Perspective and Prospect