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Direct ethanol fuel cells for transport and stationary applications–A comprehensive review
Fuel cells are one of the most efficient means of converting chemical energy into electrical
energy. The major deterrents to the commercialisation of fuel cell technologies, especially …
energy. The major deterrents to the commercialisation of fuel cell technologies, especially …
PEMFCs and AEMFCs directly fed with ethanol: a current status comparative review
The last decade's research on the performance of proton-exchange membrane direct
ethanol fuel cells (PEM-DEFCs) and anion exchange membrane direct ethanol fuel cells …
ethanol fuel cells (PEM-DEFCs) and anion exchange membrane direct ethanol fuel cells …
Selective Ethanol Oxidation Reaction at the Rh–SnO2 Interface
Direct ethanol fuel cells (DEFCs) are regarded as an attractive power source with high
energy density, bio‐renewability, and convenient storage and transportation. However, the …
energy density, bio‐renewability, and convenient storage and transportation. However, the …
Platinum-tin oxide core–shell catalysts for efficient electro-oxidation of ethanol
Platinum-tin (Pt/Sn) binary nanoparticles are active electrocatalysts for the ethanol oxidation
reaction (EOR), but inactive for splitting the CC bond of ethanol to CO2. Here we studied …
reaction (EOR), but inactive for splitting the CC bond of ethanol to CO2. Here we studied …
[HTML][HTML] Addressing environmental challenges: the role of hydrogen technologies in a sustainable future
Energy and environmental issues are of great importance in the present era. The transition
to renewable energy sources necessitates technological, political, and behavioral …
to renewable energy sources necessitates technological, political, and behavioral …
[HTML][HTML] Platinum-based ternary catalysts for the electrooxidation of ethanol
Direct ethanol fuel cell (DEFC) as a promising device for converting chemical energy to
electricity has been paid ever-increasing attention. However, the slow kinetics of ethanol …
electricity has been paid ever-increasing attention. However, the slow kinetics of ethanol …
Recent advances in earth-abundant core/noble-metal shell nanoparticles for electrocatalysis
Electrocatalysis plays a central role in the development of clean energy technologies. The
core–shell nanoparticle, which comprises a thin layer of catalytically active shell over a …
core–shell nanoparticle, which comprises a thin layer of catalytically active shell over a …
Role of the metal‐oxide support in the catalytic activity of Pd nanoparticles for ethanol electrooxidation in alkaline media
The promotional role of oxide supports (CeO2, SnO2, TiO2) on ethanol electrooxidation in
alkaline media over Pd nanoparticles (NPs) is presented and compared to Pd on carbon …
alkaline media over Pd nanoparticles (NPs) is presented and compared to Pd on carbon …
Synthesis gold and jade type core shell structure Pt@ Sn in deboronated MWW zeolite and its good performance for light alkane dehydrogenation
S Liu, G Wu, J Gong, J Wang, X Meng, X Guo… - Chemical Engineering …, 2023 - Elsevier
Abstract The Pt@ Sn core–shell structure was generated in MWW zeolite catalysts prepared
by atom-planting incorporated Sn and deposition–precipitation (DP) loaded Pt for direct …
by atom-planting incorporated Sn and deposition–precipitation (DP) loaded Pt for direct …
PtSn/C alloyed and non-alloyed materials: differences in the ethanol electro-oxidation reaction pathways
In the present work, the ethanol oxidation reaction (EOR) was investigated using PtSn/C
electrocatalysts in the following two phases: 92% alloyed prepared by the polymeric …
electrocatalysts in the following two phases: 92% alloyed prepared by the polymeric …