Dilute alloys based on Au, Ag, or Cu for efficient catalysis: from synthesis to active sites
The development of new catalyst materials for energy-efficient chemical synthesis is critical
as over 80% of industrial processes rely on catalysts, with many of the most energy-intensive …
as over 80% of industrial processes rely on catalysts, with many of the most energy-intensive …
Nanoporous metals for heterogeneous catalysis: Following the success of raney nickel
Y Gao, Y Ding - Chemistry–A European Journal, 2020 - Wiley Online Library
Nanoporous metals (NPMs) with diversified shapes and compositions can be readily
fabricated by dealloying monolithic alloys through chemical or electrochemical processes …
fabricated by dealloying monolithic alloys through chemical or electrochemical processes …
Nanostructure engineering of Cu electrocatalyst for the selective C2+ hydrocarbons in electrochemical CO2 reduction
RS Kanase, KB Lee, M Arunachalam… - Applied Surface …, 2022 - Elsevier
In recent years, the selective conversion of CO 2 to fuels and chemicals has been
deliberated as one of the key challenges in the electrochemical CO 2 reduction reaction (CO …
deliberated as one of the key challenges in the electrochemical CO 2 reduction reaction (CO …
Nanoporous copper ribbons prepared by chemical dealloying of a melt-spun ZnCu alloy
S Ibrahim, A Dworzak, D Crespo… - The Journal of …, 2021 - ACS Publications
Dealloying is a powerful and versatile method to fabricate three-dimensional nanoporous
(np) materials with high surface area. In this work, we investigated the dealloying processes …
(np) materials with high surface area. In this work, we investigated the dealloying processes …
Robust bulk micro-nano hierarchical copper structures possessing exceptional bactericidal efficacy
Conventional copper (Cu) metal surfaces are well recognized for their bactericidal
properties. However, their slow bacteria-killing potency has historically excluded them as a …
properties. However, their slow bacteria-killing potency has historically excluded them as a …
Homogenizing Zn Deposition in Hierarchical Nanoporous Cu for a High‐Current, High Areal‐Capacity Zn Flow Battery
A Zn anode can offset the low energy density of a flow battery for a balanced approach
toward electricity storage. Yet, when targeting inexpensive, long‐duration storage, the …
toward electricity storage. Yet, when targeting inexpensive, long‐duration storage, the …
Evaluating the stability and activity of dilute Cu-based alloys for electrochemical CO2 reduction
Cu-based catalysts currently offer the most promising route to actively and selectively
produce value-added chemicals via electrochemical reduction of CO 2 (eCO 2 R); yet further …
produce value-added chemicals via electrochemical reduction of CO 2 (eCO 2 R); yet further …
Bulk diffusion regulated nanopore formation during vapor phase dealloying of a Zn-Cu alloy
Dealloying is a robust method for fabricating 3D bicontinuous porous materials with open
porosity and large specific surface areas. The formation of nanopores usually results from …
porosity and large specific surface areas. The formation of nanopores usually results from …
Stabilization of a nanoporous NiCu dilute alloy catalyst for non-oxidative ethanol dehydrogenation
Producing acetaldehyde, an important industrial chemical, by direct catalytic non-oxidative
dehydrogenation of ethanol presents many advantages over current production methods …
dehydrogenation of ethanol presents many advantages over current production methods …
Hierarchical nanoporous platinum–copper alloy nanoflowers as highly active catalysts for the hydrolytic dehydrogenation of ammonia borane
Q Zhou, L Qi, H Yang, C Xu - Journal of colloid and interface science, 2018 - Elsevier
Hierarchical nanoporous platinum–copper (hnp–PtCu) alloy nanoflowers with bimodal
pore/ligament size are easily fabricated by selectively dissolving Al atoms and part of Cu …
pore/ligament size are easily fabricated by selectively dissolving Al atoms and part of Cu …