Spontaneous heterophase atomic structure engineering of NiMo (S)/NiMoP for enhanced overall electrochemical water splitting in neutral media
Hydrogen/oxygen evolution reactions catalyzed by transition metals have sluggish kinetics
during prolonged water electrolysis in neutral media. Covering the surface with an …
during prolonged water electrolysis in neutral media. Covering the surface with an …
Exploring the Synergy of Magnetism and Electrocatalysis: A Comprehensive Review on Mechanism, Recent Developments and Future Perspectives
The advancement of sustainable energy conversion and storage technologies depends on
electrocatalysis, which calls for the creation of more effective electrocatalysts to speed up …
electrocatalysis, which calls for the creation of more effective electrocatalysts to speed up …
Recent Advance in Electrocatalytic Water Splitting for Hydrogen Production by Layered Double Hydroxides
T Xia, Q Ren, J Yang, Z Li, M Shao, X Duan - Chemical Research in …, 2024 - Springer
Collecting green hydrogen (H2) from water splitting driven by renewable energy is a new
competition to implement the construction of H2 energy industry and promote new economic …
competition to implement the construction of H2 energy industry and promote new economic …
Triggered Directed Electron Redistribution Endowed by Efficient Ohmic Contacts of NiMoN/Ni3S2 for Boosting Large Current‐Density Overall Seawater Splitting
LL Ma, YR Hao, J Sun, Y Chen, C Li… - Advanced Functional …, 2024 - Wiley Online Library
The rational construction of interfacial nanostructures of metal/semiconductor (MS)
contacted electrocatalysts has a significant impact on improving their intrinsic activities …
contacted electrocatalysts has a significant impact on improving their intrinsic activities …
Regulating the cationic vacancy structure of NiO to optimize its d band center and accelerate oxygen evolution reaction
W Zhang, X Li, G Chen, J Xu - International Journal of Hydrogen Energy, 2024 - Elsevier
In order to study the influence of cationic vacancy structure on the oxygen evolution reaction
(OER) activity of catalysts. A series of cationic vacancy NiO catalysts (dM x-NiO) with …
(OER) activity of catalysts. A series of cationic vacancy NiO catalysts (dM x-NiO) with …
Macroscale Structures of Layered Double Hydroxides: A Review of Formation Strategies and Applications in Water Treatment
Y Pan, L Li, L Dong, F Wang, M Xia, F Wang - Journal of Environmental …, 2025 - Elsevier
Layered double hydroxides (LDHs) possess excellent pollutant adsorption and separation
capabilities, making them promising for pollution control, particularly in the removal of water …
capabilities, making them promising for pollution control, particularly in the removal of water …
A High‐Entropy Oxyhydroxide with a Graded Metal Network Structure for Efficient and Robust Alkaline Overall Water Splitting
Designing high‐entropy oxyhydroxides (HEOs) electrocatalysts with controlled
nanostructures is vital for efficient and stable water‐splitting electrocatalysts. Herein, a novel …
nanostructures is vital for efficient and stable water‐splitting electrocatalysts. Herein, a novel …
Self-supported tungsten-doped nickel-iron layered phosphides for efficient electrocatalytic alkaline water splitting
LX Kong, HH Li, XQ Liu, XJ Ni, ML Xue, Y Fang… - Journal of Alloys and …, 2024 - Elsevier
Although layered double hydroxides (NiFe-LDH) have demonstrated adequate oxygen
evolution reaction (OER) performance since their inception, their low hydrogen evolution …
evolution reaction (OER) performance since their inception, their low hydrogen evolution …
Strong interaction-induced in situ-reconstructed Ag3 triangle as a real active unit for enhanced electrocatalytic hydrogen evolution
Y Zhou, X Wei, Y Du, K Ni, M Zhu - Chem Catalysis, 2024 - cell.com
Due to the lack of well-defined structure, identifying and modulating structural reconstruction
of a catalyst in reaction still remains a challenge. Herein, we prepared two atomically precise …
of a catalyst in reaction still remains a challenge. Herein, we prepared two atomically precise …