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Ammonia holds great promise as a carbon-neutral liquid fuel for
storing intermittent renewable energy sources and power generation
due to its high energy density and hydrogen content.
Photo-Electrochemical Ammonia Synthesis: Nanocatalyst Discovery,
Reactor Design, and Advanced Spectroscopy covers the synthesis of
novel hybrid plasmonic nanomaterials and their application in
photo-electrochemical systems to convert low energy molecules to
high value-added molecules and looks specifically at
photo-electrochemical nitrogen reduction reaction (NRR) for ammonia
synthesis as an attractive alternative to the long-lasting
thermochemical process. Provides an integrated scientific
framework, combining materials chemistry, photo-electrochemistry,
and spectroscopy to overcome the challenges associated with
renewable energy storage and transport Reviews materials chemistry
for the synthesis of a range of heterogeneous (photo)
electrocatalysts including plasmonic and hybrid
plasmonic-semiconductor nanostructures for selective and efficient
conversion of N2 to NH3 Covers novel reactor design to study the
redox processes in the photo-electrochemical energy conversion
system and to benchmark nanocatalysts’ selectivity and activity
toward NRR Discusses the use of advanced spectroscopic techniques
to probe the reaction mechanism for ammonia synthesis Offers
techno-economic analysis and presents performance targets for the
scale-up and commercialization of electrochemical ammonia synthesis
This book is of value to researchers, advanced students, and
industry professionals working in sustainable energy storage and
conversion across the disciplines of Chemical Engineering,
Mechanical Engineering, Materials Science and Engineering,
Environmental Engineering, and related areas.
Ammonia holds great promise as a carbon-neutral liquid fuel for
storing intermittent renewable energy sources and power generation
due to its high energy density and hydrogen content.
Photo-Electrochemical Ammonia Synthesis: Nanocatalyst Discovery,
Reactor Design, and Advanced Spectroscopy covers the synthesis of
novel hybrid plasmonic nanomaterials and their application in
photo-electrochemical systems to convert low energy molecules to
high value-added molecules and looks specifically at
photo-electrochemical nitrogen reduction reaction (NRR) for ammonia
synthesis as an attractive alternative to the long-lasting
thermochemical process. Provides an integrated scientific
framework, combining materials chemistry, photo-electrochemistry,
and spectroscopy to overcome the challenges associated with
renewable energy storage and transport Reviews materials chemistry
for the synthesis of a range of heterogeneous (photo)
electrocatalysts including plasmonic and hybrid
plasmonic-semiconductor nanostructures for selective and efficient
conversion of N2 to NH3 Covers novel reactor design to study the
redox processes in the photo-electrochemical energy conversion
system and to benchmark nanocatalysts' selectivity and activity
toward NRR Discusses the use of advanced spectroscopic techniques
to probe the reaction mechanism for ammonia synthesis Offers
techno-economic analysis and presents performance targets for the
scale-up and commercialization of electrochemical ammonia synthesis
This book is of value to researchers, advanced students, and
industry professionals working in sustainable energy storage and
conversion across the disciplines of Chemical Engineering,
Mechanical Engineering, Materials Science and Engineering,
Environmental Engineering, and related areas.
Offering the latest information in magnetic nanoparticle (MNP)
research, this book builds upon the success of the first volume and
provides an updated and comprehensive review, from synthesis,
characterization, and biofunctionalization to clinical applications
of MNPs, including the diagnosis and treatment of cancers. The book
captures some of emerging research area which was not available in
the first volume. Good Manufacturing Practices and
Commercialization of MNPs are also included. This volume, also
written by some of the most qualified experts in the field,
incorporates new developments in the literature, and continues to
bridge the gaps between the different areas in this field.
Offering the latest information in magnetic nanoparticle (MNP)
research, this book builds upon the success of the first volume and
provides an updated and comprehensive review, from synthesis,
characterization, and biofunctionalization to clinical applications
of MNPs, including the diagnosis and treatment of cancers. The book
captures some of emerging research area which was not available in
the first volume. Good Manufacturing Practices and
Commercialization of MNPs are also included. This volume, also
written by some of the most qualified experts in the field,
incorporates new developments in the literature, and continues to
bridge the gaps between the different areas in this field.
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