Comprehensive reference on the design, characteristics, performance, and development potential of key components of PEMFC through electrospinning technologies

Electrospinning for Proton Exchange Membrane Fuel Cells discusses the use of electrospun materials in preparing next-generation fuel cell proton-conducting membranes, comprehensively reviewing the essential parts of proton exchange membrane fuel cell (PEMFC) components including the catalyst layer, gas diffusion layer, and proton exchange membrane. The book covers both electrochemical methods and hands-on experimental processes and provides a perspective of hydrogen fuel and PEMFC vehicles in the transformation of low-carbon energy.

Electrospinning for Proton Exchange Membrane Fuel Cells includes information on:

• Working principles, current state of research, and existing obstacles of PEMFC components, as well as the role of electrospinning and nanofibers in PEMFC
• Physical properties and electrochemical polarization of the nanofiber catalyst layer prepared by electrospinning
• Water management ability of fuel cells under high inlet humidity
• Cold starting ability and performance aging of PEMFC through the electrospun microporous layer under high current density
• Experimental devices for the study of the electrospun proton exchange membrane and composite proton exchange membrane

Electrospinning for Proton Exchange Membrane Fuel Cells is an excellent reference on the subject for materials scientists, catalytic chemists, polymer chemists, electrochemists, and electronics engineers.

Yong Liu is a professor at the College of Materials Science and Engineering, Beijing University of Chemical Technology, China. His research focuses on the preparation and application of polymer and nanocomposite materials.

Dr. Mohideen Meerasahib Mohamedazeem is a Materials Science expert with a deep focus on sustainable energy solutions. He received an International Scientist funding award from the Beijing Natural Science Foundation, where he will lead a project from 2024 to 2026.