Fuel cell devices, with their advantages of high
efficiency and much less emission, are the most
promising potential candidates to assist in solving
the energy crisis and serious environmental
pollution that we are facing. However, the high cost
and existing technical barriers make it difficult
for the commercialization of this technology.
Electrocatalyst plays an essential role on fuel
cells operation, especially for proton exchange
membrane fuel cells. This unique book, therefore,
presents the audiences the most recent achievement
of our studies on the discovery of low cost, high
efficient transitional metal modified binary
electrocatalysts for low temperature fuel cells to
alleviate the current situation of heavily relying
on the rare noble metal platinum. This book will be
of interests to multidisciplinary audiences in the
fields of academia and industry. It could serve as a
valuable resource for better understanding of the
most current state of electrocatalysis research on
low temperature PEM fuel cells.
efficiency and much less emission, are the most
promising potential candidates to assist in solving
the energy crisis and serious environmental
pollution that we are facing. However, the high cost
and existing technical barriers make it difficult
for the commercialization of this technology.
Electrocatalyst plays an essential role on fuel
cells operation, especially for proton exchange
membrane fuel cells. This unique book, therefore,
presents the audiences the most recent achievement
of our studies on the discovery of low cost, high
efficient transitional metal modified binary
electrocatalysts for low temperature fuel cells to
alleviate the current situation of heavily relying
on the rare noble metal platinum. This book will be
of interests to multidisciplinary audiences in the
fields of academia and industry. It could serve as a
valuable resource for better understanding of the
most current state of electrocatalysis research on
low temperature PEM fuel cells.