Innovative strategies for overall water splitting using nanostructured transition metal electrocatalysts
A Ali, F Long, PK Shen - Electrochemical Energy Reviews, 2022 - Springer
Electrochemical water splitting is regarded as the most auspicious technology for renewable
sources, transport, and storage of hydrogen energy. Currently, noble Pt metal and noble …
sources, transport, and storage of hydrogen energy. Currently, noble Pt metal and noble …
Perfecting electrocatalysts via imperfections: towards the large-scale deployment of water electrolysis technology
As a potential energy carrier, hydrogen has surged up the priority list as part of broader
decarbonization efforts and strategies to build or acquire clean energy economies. Driven by …
decarbonization efforts and strategies to build or acquire clean energy economies. Driven by …
Highly Active and Durable Single‐Atom Tungsten‐Doped NiS0.5Se0.5 Nanosheet @ NiS0.5Se0.5 Nanorod Heterostructures for Water Splitting
Develo** robust and highly active non‐precious electrocatalysts for the hydrogen/oxygen
evolution reaction (HER/OER) is crucial for the industrialization of hydrogen energy. In this …
evolution reaction (HER/OER) is crucial for the industrialization of hydrogen energy. In this …
High‐Performance Alkaline Freshwater and Seawater Hydrogen Catalysis by Sword‐Head Structured Mo2N‐Ni3Mo3N Tunable Interstitial Compound …
Z Zhu, L Luo, Y He, M Mushtaq, J Li… - Advanced Functional …, 2024 - Wiley Online Library
Realizing efficient electrocatalysts is a step** stone toward achieving high‐performance
alkaline water/seawater electrolysis, but remains a crucial challenge. Herein …
alkaline water/seawater electrolysis, but remains a crucial challenge. Herein …
Engineering active sites on hierarchical transition bimetal oxides/sulfides heterostructure array enabling robust overall water splitting
Rational design of the catalysts is impressive for sustainable energy conversion. However,
there is a grand challenge to engineer active sites at the interface. Herein, hierarchical …
there is a grand challenge to engineer active sites at the interface. Herein, hierarchical …
Interfacial Engineering of MoO2‐FeP Heterojunction for Highly Efficient Hydrogen Evolution Coupled with Biomass Electrooxidation
G Yang, Y Jiao, H Yan, Y **e, A Wu, X Dong… - Advanced …, 2020 - Wiley Online Library
Simultaneous highly efficient production of hydrogen and conversion of biomass into value‐
added products is meaningful but challenging. Herein, a porous nanospindle composed of …
added products is meaningful but challenging. Herein, a porous nanospindle composed of …
Interface Engineering of Hierarchical Branched Mo‐Doped Ni3S2/NixPy Hollow Heterostructure Nanorods for Efficient Overall Water Splitting
Rational design and construction of bifunctional electrocatalysts with excellent activity and
durability is imperative for water splitting. Herein, a novel top‐down strategy to realize a …
durability is imperative for water splitting. Herein, a novel top‐down strategy to realize a …
Electrospinning of nanofibres
Electrospinning is used to fabricate microscale to nanoscale materials from polymeric
solutions based on electrohydrodynamics. Material modifications are achieved through …
solutions based on electrohydrodynamics. Material modifications are achieved through …
Sequential Electrodeposition of Bifunctional Catalytically Active Structures in MoO3/Ni–NiO Composite Electrocatalysts for Selective Hydrogen and Oxygen Evolution
X Li, Y Wang, J Wang, Y Da, J Zhang, L Li… - Advanced …, 2020 - Wiley Online Library
Exploring earth‐abundant and highly efficient electrocatalysts is critical for further
development of water electrolyzer systems. Integrating bifunctional catalytically active sites …
development of water electrolyzer systems. Integrating bifunctional catalytically active sites …
Interfacial component coupling effects towards precise heterostructure design for efficient electrocatalytic water splitting
Electrocatalytic water splitting is an appealing method for generating renewable hydrogen.
In acidic media, noble metals are commonly used as electrocatalysts, whereas in alkaline …
In acidic media, noble metals are commonly used as electrocatalysts, whereas in alkaline …