Add to ORKGNanoporous metal nanowires with large surface areas, and a high density of defect sites play an important role in catalysis. Here, a general and scalable one-step dealloying strategy is developed to prepare nanoporous alloy nanowires with controllable compositions by manipulating the grain size, structure and composition of bulk Cu-based precursor alloys. We prepared PtCuAu nanoporous nanowires with a diameter of 200-500 nm and tunable composition by dealloying a diluted Pt1Au0.5Cu98.5 single-phase alloy with nanoscale column-like-structured grains. Material characterization suggests that the formation of separated nanowires is due to the large-scale shrinkage of the column-structured grains during dealloying of Cu, which also generates ult...
Using Te nanowires as a sacrificial template, we developed a facile wet-chemical method for the synt...
Pt-based alloy nanoframes have shown great potential as electrocatalysts toward the oxygen reduction...
Ultrathin bimetallic nanowires are of importance and interest for applications in electronic devices...
Micrometer wire-like PtCu catalysts with nanoporous structure and tunable composition were fabricate...
The ability to impart Pt-based catalysts with high catalytic activity and low cost is essential for ...
We report a simple approach to fabricate aligned bimetallic Pt–Cu microwires with a three-dimensiona...
Introducing high-index facets into nanocrystals (NCs) is an effective way for boosting the electroca...
Introducing high-index facets into nanocrystals (NCs) is an effective way for boosting the electroca...
The ability for tuning not only the composition but also the type of surface facets of alloyed nanom...
We have prepared a multi-component nanoporous PtRuCuW (np-PtRuCuW) electrocatalyst via a combined ch...
We have prepared a multi-component nanoporous PtRuCuW (np-PtRuCuW) electrocatalyst via a combined ch...
Dealloying of binary AgAu and ternary AgAuPt alloys has been proven to yield nanoporous metals (NPG ...
Through a bromide-induced galvanic replacement reaction between Pd nanowires and K2PtCl6, PtPd porou...
Dealloying of binary AgAu and ternary AgAuPt alloys has been proven to yield nanoporous metals (NPG ...
Developing non-platinum materials with enhance performance for electrocatalytic reactions has been g...
Using Te nanowires as a sacrificial template, we developed a facile wet-chemical method for the synt...
Pt-based alloy nanoframes have shown great potential as electrocatalysts toward the oxygen reduction...
Ultrathin bimetallic nanowires are of importance and interest for applications in electronic devices...
Micrometer wire-like PtCu catalysts with nanoporous structure and tunable composition were fabricate...
The ability to impart Pt-based catalysts with high catalytic activity and low cost is essential for ...
We report a simple approach to fabricate aligned bimetallic Pt–Cu microwires with a three-dimensiona...
Introducing high-index facets into nanocrystals (NCs) is an effective way for boosting the electroca...
Introducing high-index facets into nanocrystals (NCs) is an effective way for boosting the electroca...
The ability for tuning not only the composition but also the type of surface facets of alloyed nanom...
We have prepared a multi-component nanoporous PtRuCuW (np-PtRuCuW) electrocatalyst via a combined ch...
We have prepared a multi-component nanoporous PtRuCuW (np-PtRuCuW) electrocatalyst via a combined ch...
Dealloying of binary AgAu and ternary AgAuPt alloys has been proven to yield nanoporous metals (NPG ...
Through a bromide-induced galvanic replacement reaction between Pd nanowires and K2PtCl6, PtPd porou...
Dealloying of binary AgAu and ternary AgAuPt alloys has been proven to yield nanoporous metals (NPG ...
Developing non-platinum materials with enhance performance for electrocatalytic reactions has been g...
Using Te nanowires as a sacrificial template, we developed a facile wet-chemical method for the synt...
Pt-based alloy nanoframes have shown great potential as electrocatalysts toward the oxygen reduction...
Ultrathin bimetallic nanowires are of importance and interest for applications in electronic devices...