Retrospect and prospect: nanoarchitectonics of platinum‐group‐metal‐based materials
Nanoarchitectonics, a concept encompassing nanoscale microstructures and atomic
arrangements in materials, enables the precise modification of materials for desired …
arrangements in materials, enables the precise modification of materials for desired …
The applications of single‐atom alloys in electrocatalysis: progress and challenges
The development of cost‐effective and highly efficient electrocatalysts to accelerate distinct
electrochemical reactions is essential to help the industry to achieve a low‐carbon footprint …
electrochemical reactions is essential to help the industry to achieve a low‐carbon footprint …
Porous nanoarchitectures of nonprecious metal borides: from controlled synthesis to heterogeneous catalyst applications
Porous nonprecious metal-based nanomaterials have gained considerable attention in
heterogeneous catalysis owing to their low price, high specific surface area, efficient …
heterogeneous catalysis owing to their low price, high specific surface area, efficient …
Composition engineering of amorphous nickel boride nanoarchitectures enabling highly efficient electrosynthesis of hydrogen peroxide
Developing advanced electrocatalysts with exceptional two electron (2e−) selectivity,
activity, and stability is crucial for driving the oxygen reduction reaction (ORR) to produce …
activity, and stability is crucial for driving the oxygen reduction reaction (ORR) to produce …
Amorphization-induced reverse electron transfer in NiB cocatalyst for boosting photocatalytic H2 production
H Long, D Gao, P Wang, X Wang, F Chen… - Applied Catalysis B …, 2024 - Elsevier
Regulating the electron density distribution of active sites to accelerate catalytic process is of
great significance to explore high-efficiency cocatalysts for photocatalytic hydrogen …
great significance to explore high-efficiency cocatalysts for photocatalytic hydrogen …
Soft template‐based synthesis of mesoporous phosphorus‐and boron‐codoped NiFe‐based alloys for efficient oxygen evolution reaction
Controlling the morphology, composition, and crystalline phase of mesoporous nonnoble
metal catalysts is essential for improving their performance. Herein, well‐defined P‐and B …
metal catalysts is essential for improving their performance. Herein, well‐defined P‐and B …
Hetero-phase Pd4S metallene nanoribbons with Pd-rich vacancies for sulfur ion degradation-assisted hydrogen production
W Wang, Q Mao, S Jiang, K Deng, H Yu, Z Wang… - Applied Catalysis B …, 2024 - Elsevier
Vacancy defects and crystal-phase are essential parameters that affect surface electronic
structure. It is still a great challenge to introduce both vacancy defects and unconventional …
structure. It is still a great challenge to introduce both vacancy defects and unconventional …
Self-supported nickel iron selenide@ nickel cobalt boride core-shell nanosheets electrode for asymmetric supercapacitors
Z Tian, K Zhou, M Xie, Y Zhang, J Chen, C Du… - Chemical Engineering …, 2022 - Elsevier
Optimizing the electrode structure and interface is a promising approach to achieve high
energy density asymmetric supercapacitors. In this study, a core–shell heterostructure based …
energy density asymmetric supercapacitors. In this study, a core–shell heterostructure based …
Au-loaded superparamagnetic mesoporous bimetallic CoFeB nanovehicles for sensitive autoantibody detection
Construction of a well-defined mesoporous nanostructure is crucial for applying nonnoble
metals in catalysis and biomedicine owing to their highly exposed active sites and …
metals in catalysis and biomedicine owing to their highly exposed active sites and …
A novel amorphous alloy photocatalyst (NiB/In2O3) composite for sunlight-induced CO2 hydrogenation to HCOOH
Photocatalytic CO 2 hydrogenation into fuels and value-added chemicals is considered as a
promising strategy for CO 2 conversion and utilization. However, the photocatalysts used …
promising strategy for CO 2 conversion and utilization. However, the photocatalysts used …