Electrochemical hydrogen production: sustainable hydrogen economy

Green Chemistry, Год журнала: 2023, Номер 25(23), С. 9543 - 9573

Опубликована: Янв. 1, 2023

The development of sustainable energy technologies has received considerable attention to meet increasing global demands and realise organisational goals ( e.g. , United Nations, the Paris Agreement) carbon neutrality.

Язык: Английский

High-Performance Hydrogen-Selective Pd-Ag Membranes Modified with Pd-Pt Nanoparticles for Use in Steam Reforming Membrane Reactors

International Journal of Molecular Sciences, Год журнала: 2023, Номер 24(24), С. 17403 - 17403

Опубликована: Дек. 12, 2023

A unique method for synthesizing a surface modifier metallic hydrogen permeable membranes based on non-classic bimetallic pentagonally structured Pd-Pt nanoparticles was developed. It found that had hollow structures. This significantly reduced the cost of their production due to economical use metal. According results electrochemical studies, synthesized Pd-Pt/Pd-Ag showed excellent catalytic activity (up 60.72 mA cm-2), long-term stability, and resistance COads poisoning in alkaline oxidation reaction methanol. The membrane with highest permeation flux density, up 27.3 mmol s-1 m-2. obtained density two times higher than classic Pdblack/Pd-Ag an order magnitude unmodified membrane. Since rate transcrystalline transfer through increased, while speed defects remained unchanged, one half rise selectivity developed recorded, it amounted 3514. achieved were both synergistic effect combination Pd Pt metals composition large number available catalytically active centers, which present as result morphology high-index facets. specific faceting, defect structure, unusual properties provide great opportunities application areas reactors, electrocatalysis, petrochemical industries.

Язык: Английский

High-Performance Hydrogen-Selective Pd-Ag Membranes Modified with Pd-Pt Nanoparticles for Use in Steam Reforming Membrane Reactors

Опубликована: Ноя. 21, 2023

A unique method for synthesizing a surface modifier metallic hydrogen permeable mem-branes based on non-classic bimetallic pentagonally structured Pd-Pt nanoparticles has been de-veloped. It was found that had hollow structure. This significantly reduces the cost of their production due to economical use metal. According results electro-chemical studies, synthesized Pd-Pt/Pd-Ag showed excellent catalytic activi-ty (up 60.72 mA cm–2), long-term stability and resistance COads poisoning in alkaline oxida-tion reaction methanol. The membrane with highest permeation flux density up 27.3 mmol s–1 m–2. Obtained hy-drogen were 2 times higher than membranes classic Pdblack/Pd-Ag an order magnitude unmodified membrane. Since rate transcrystalline transfer through increased, while speed defects remained unchanged, one half rise selectivity developed recorded it amounted 3514. Achieved are both synergistic effect combination Pd Pt metals composition large number available catalytically active centers, which present as result morphology high-index facets. specific faceting, defect structure unusual properties provide great opportunities application areas reac-tors, electrocatalysis, petrochemical industries.

Язык: Английский