Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol

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Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol

This Special Issue is related to studies of the hydrogen production from formic acid decomposition. It is based on five research papers and two reviews. The reviews discuss the liquid phase formic acid decomposition over bimetallic (PdAg), molecular (Ru, Ir, Fe, Co), and heterogenized molecular cata...

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Sonstige:
Bulushev, Dmitri A.
Year of Publication:2020
Language:English
Physical Description:1 electronic resource (122 p.)
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spelling Bulushev, Dmitri A. edt
Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol
Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
1 electronic resource (122 p.)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Open access Unrestricted online access star
This Special Issue is related to studies of the hydrogen production from formic acid decomposition. It is based on five research papers and two reviews. The reviews discuss the liquid phase formic acid decomposition over bimetallic (PdAg), molecular (Ru, Ir, Fe, Co), and heterogenized molecular catalysts. The gas-phase reaction is studied over highly dispersed Pd, Pt, Au, Cu, and Ni supported catalysts. It is shown that the nature of the catalyst’s support plays an important role for the reaction. Thus, N-doping of the carbon support provides a significant promotional effect. One of the reasons for the high activity of the N-doped catalysts is the formation of single-atom active sites stabilized by pyridinic N species present in the support. It is demonstrated that carbon materials can be N-doped in different ways. It can be performed either directly from N-containing compounds during the carbon synthesis or by a post-synthetic deposition of N-containing compounds on the carbon support with known properties. The Issue could be useful for specialists in catalysis and nanomaterials as well as for graduate students studying chemistry and chemical engineering. The reported results can be applied for development of catalysts for the hydrogen production from different liquid organic hydrogen carriers.
English
Technology: general issues bicssc
formic acid decomposition
hydrogen production
CuO-CeO2/γ-Al2O3
multifuel processor
copper catalyst
oxygenates
fuel cell
Pd/C
melamine
g-C3N4
bipyridine
phenanthroline
N-doped carbon
hydrogen
formic acid
platinum
nitrogen doped
carbon nanotubes
carbon nanofibers
heterogeneous catalysts
bimetallic nanoparticles
PdAg
AgPd
alloy
nickel catalyst
porous carbon support
nitrogen doping
hydrogen energetics
hydrogen carrier
formic acid dehydrogenation
supported gold catalysts
formic
formate
hybrid
functionalization
co-catalyst
additive
amine
molecular catalyst
nanocatalyst
nano co-catalyst
3-03936-380-8
3-03936-381-6
Bulushev, Dmitri A. oth
language English
format eBook
author2 Bulushev, Dmitri A.
author_facet Bulushev, Dmitri A.
author2_variant d a b da dab
author2_role Sonstige
title Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol
spellingShingle Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol
title_full Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol
title_fullStr Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol
title_full_unstemmed Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol
title_auth Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol
title_new Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol
title_sort advanced catalysis in hydrogen production from formic acid and methanol
publisher MDPI - Multidisciplinary Digital Publishing Institute
publishDate 2020
physical 1 electronic resource (122 p.)
isbn 3-03936-380-8
3-03936-381-6
illustrated Not Illustrated
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is_hierarchy_title Advanced Catalysis in Hydrogen Production from Formic Acid and Methanol
author2_original_writing_str_mv noLinkedField
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