Opportunities and challenges of interface engineering in bimetallic nanostructure for enhanced electrocatalysis
Q Shao, P Wang, X Huang - Advanced Functional Materials, 2019 - Wiley Online Library
The development of bimetal based catalysts via interfacial engineered strategy has been
intensively explored due to its great potential for enhancing the electrochemical …
intensively explored due to its great potential for enhancing the electrochemical …
[HTML][HTML] Catalytic nanoarchitectonics for environmentally compatible energy generation
H Abe, J Liu, K Ariga - Materials Today, 2016 - Elsevier
Environmentally compatible energy management is one of the biggest challenges of the
21st century. Low-temperature conversion of chemical to electrical energy is of particular …
21st century. Low-temperature conversion of chemical to electrical energy is of particular …
Faceted metal and metal oxide nanoparticles: design, fabrication and catalysis
The review addresses new advances in metal, bimetallic, metal oxide, and composite
particles in their nanoregime for facet-selective catalytic applications. The synthesis and …
particles in their nanoregime for facet-selective catalytic applications. The synthesis and …
Fe Coordination Environment, Fe-Incorporated Ni(OH)2 Phase, and Metallic Core Are Key Structural Components to Active and Stable Nanoparticle Catalysts for the …
Bimetallic iron–nickel oxide/hydroxide (FeNiO (H) x) nanocatalysts have emerged as
nonprecious metal candidates for alkaline oxygen evolution reaction (OER) electrocatalysis …
nonprecious metal candidates for alkaline oxygen evolution reaction (OER) electrocatalysis …
Co7Fe3 and Co7Fe3@SiO2 Nanospheres with Tunable Diameters for High-Performance Electromagnetic Wave Absorption
Ferromagnetic metal/alloy nanoparticles have attracted extensive interest for
electromagnetic wave-absorbing applications. However, ferromagnetic nanoparticles are …
electromagnetic wave-absorbing applications. However, ferromagnetic nanoparticles are …
Facet-controlled hollow Rh 2 S 3 hexagonal nanoprisms as highly active and structurally robust catalysts toward hydrogen evolution reaction
Developing highly active and structurally robust electrocatalysts for hydrogen evolution
reaction (HER) is of paramount importance for sustainable and clean production of …
reaction (HER) is of paramount importance for sustainable and clean production of …
Rational design of metal nanoframes for catalysis and plasmonics
Recently, metal nanoframes have received increased attention due to their unique spatial
and physicochemical, eg, catalytic and plasmonic properties. So far, a variety of synthetic …
and physicochemical, eg, catalytic and plasmonic properties. So far, a variety of synthetic …
Kinetically Controlling Surface Structure to Construct Defect-Rich Intermetallic Nanocrystals: Effective and Stable Catalysts.
Kinetic control of surface defects is achieved, and cubic, concave cubic, and defect-rich
cubic intermetallic Pt3 Sn nanocrystals are prepared for the electro-oxidation of formic acid …
cubic intermetallic Pt3 Sn nanocrystals are prepared for the electro-oxidation of formic acid …
Functional defective metal‐organic coordinated network of mesostructured nanoframes for enhanced electrocatalysis
Although defects are traditionally perceived as undesired feature, the prevalence of
tenacious low‐coordinated defects can instead give rise to desirable functionalities. Here, a …
tenacious low‐coordinated defects can instead give rise to desirable functionalities. Here, a …
A triple-cathode electron-Fenton system for efficient Fe2+ regeneration and in-situ H2O2 electro-activation
D Wang, Y Li, S Hu, J Hu, H Hou, B Liu, H Zheng… - Separation and …, 2022 - Elsevier
Electro-Fenton (EF) has shown great advantages in the effecient degradation of recalcitrant
organic pollutants through in situ generation of• OH, and the main limitations on system …
organic pollutants through in situ generation of• OH, and the main limitations on system …