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Strategies of anode design for seawater electrolysis: recent development and future perspective
Compared with freshwater splitting, seawater electrolysis has more spaces to be explored,
which is primarily attributed to the additional critical catalytic challenges of the competition …
which is primarily attributed to the additional critical catalytic challenges of the competition …
A roadmap towards sustainable anode design for alkaline water electrolysis
Long-term anode durability with high intrinsic activity is crucial to deliver affordable green
hydrogen by electrochemical water splitting. Current research mainly focuses on tuning the …
hydrogen by electrochemical water splitting. Current research mainly focuses on tuning the …
Pillared-MOF@ NiV-LDH composite as a remarkable electrocatalyst for water oxidation
Oxygen evolution reaction (OER) represents a highly important electrochemical
transformation in energy storage and conversion technologies. Considering the low rate of …
transformation in energy storage and conversion technologies. Considering the low rate of …
Au nanocluster coupling with Gd-Co2B nanoflakes embedded in reduced TiO2 nanosheets: Seawater electrolysis at low cell voltage with high selectivity and …
Seawater electrolysis offers a promising technology for environmental remediation and
mass production of sustainable hydrogen. However, intricated synthetic routes, limited …
mass production of sustainable hydrogen. However, intricated synthetic routes, limited …
Recent advances in electrocatalysts toward alcohol-assisted, energy-saving hydrogen production
As a pure and sustainable source of power, hydrogen (H2) is the desired chemical
candidate for the future energy mix. Water electrolysis has been regarded as an effective …
candidate for the future energy mix. Water electrolysis has been regarded as an effective …
Density‐Controlled Metal Nanocluster with Modulated Surface for pH‐Universal and Robust Water Splitting
Reducing the particle sizes of transition metals (TMs) and avoiding their aggregation are
crucial for increasing the TMs atom utilization and enhancing their industrial potential …
crucial for increasing the TMs atom utilization and enhancing their industrial potential …
Multifunctional porous NiCo bimetallic foams toward water splitting and methanol oxidation-assisted hydrogen production
Multifunctional electrocatalysts with high catalytic activity and selectivity are highly desirable
for environmentally benign and sustainable energy conversion and storage technologies …
for environmentally benign and sustainable energy conversion and storage technologies …
S doped Cu2O-CuO nanoneedles array: Free standing oxygen evolution electrode with high efficiency and corrosion resistance for seawater splitting
Electrochemical splitting of seawater is highly preferable over freshwater electrolysis to
produce sustainable hydrogen terrifically due to its abundance in nature. Seawater …
produce sustainable hydrogen terrifically due to its abundance in nature. Seawater …
Electronic and Structural Modification of Mn3O4 Nanosheets for Selective and Sustained Seawater Oxidation
The accomplishment of seawater electrolysis to produce green hydrogen energy needs an
efficient and durable electrocatalyst with high selectivity and corrosion resistance. Here we …
efficient and durable electrocatalyst with high selectivity and corrosion resistance. Here we …
Fabrication of NiCu interconnected porous nanostructures for highly selective methanol oxidation coupled with hydrogen evolution reaction
Electrocatalytic water electrolysis is the most promising clean and efficient process for pure
and clean generation of hydrogen. However, water oxidation reaction requires a large …
and clean generation of hydrogen. However, water oxidation reaction requires a large …