Integrated CO 2 capture and electrochemical upgradation: the underpinning mechanism and techno-chemical analysis
Coupling post-combustion CO2 capture with electrochemical utilization (CCU) is a quantum
leap in renewable energy science since it eliminates the cost and energy involved in the …
leap in renewable energy science since it eliminates the cost and energy involved in the …
Recent advancement on anion exchange membranes for fuel cell and water electrolysis
M Mandal - ChemElectroChem, 2021 - Wiley Online Library
Highly conductive anion exchange membranes (AEMs) are one of the few requirements to
produce high power during fuel cell operation and for efficient hydrogen production through …
produce high power during fuel cell operation and for efficient hydrogen production through …
Achieving high‐performance and 2000 h stability in anion exchange membrane fuel cells by manipulating ionomer properties and electrode optimization
The primary function of the ionomers that are incorporated into fuel cell electrode catalyst
layers is to provide pathways for ion transport between the catalyst active sites and the …
layers is to provide pathways for ion transport between the catalyst active sites and the …
Recent advances in bipolar membrane design and applications
PK Giesbrecht, MS Freund - Chemistry of Materials, 2020 - ACS Publications
Integration of bipolar membranes (BPMs) into electrochemical cells is an established
method for acid and base generation, as well as desalinization methods. More recently …
method for acid and base generation, as well as desalinization methods. More recently …
Poly (norbornene) anion conductive membranes: homopolymer, block copolymer and random copolymer properties and performance
It has previously been shown that phase-separated block copolymers with non-ion
conducting (hydrophobic) blocks and ion conducting (hydrophilic) blocks can form efficient …
conducting (hydrophobic) blocks and ion conducting (hydrophilic) blocks can form efficient …
Development of a High-Performance Ammonium Formate Fuel Cell
Direct formate fuel cells are attractive due to their high theoretical voltage of 1.45 V, facile
and complete formate oxidation in alkaline media, and ease of handling during storage and …
and complete formate oxidation in alkaline media, and ease of handling during storage and …
A review of anodes for direct borohydride fuel cells: Electrode and catalytic environment
D Zhang, T Sun, D Cao, Y Liu, W Jiao, G Wang - Journal of Power Sources, 2023 - Elsevier
The borohydride oxidation reaction (BOR) is the main reaction in the anode of direct
borohydride fuel cells (DBFCs), which is also fundamental to highlight the advantages of …
borohydride fuel cells (DBFCs), which is also fundamental to highlight the advantages of …
Ionomer optimization for water uptake and swelling in anion exchange membrane electrolyzer: oxygen evolution electrode
Water electrolysis using an anion conductive, solid polymer electrolyte is an attractive
method for point-of-use hydrogen production. Recent advances in catalysts and anion …
method for point-of-use hydrogen production. Recent advances in catalysts and anion …
Ionomer optimization for water uptake and swelling in anion exchange membrane electrolyzer: hydrogen evolution electrode
Green hydrogen produced through anion exchange membrane water electrolysis is a
promising, low-cost chemical storage solution for intermittent renewable energy sources …
promising, low-cost chemical storage solution for intermittent renewable energy sources …
Development of bimetallic PdNi electrocatalysts toward mitigation of catalyst poisoning in direct borohydride fuel cells
Cost-effective and highly active borohydride oxidation reaction (BOR) electrocatalysts are
crucial for the advancement of direct borohydride fuel cells (DBFCs). Noble-metal …
crucial for the advancement of direct borohydride fuel cells (DBFCs). Noble-metal …