Add to ORKGDirect alcohol fuel cells are highly promising as efficient power sources for various mobile and portable applications. However, for the further advancement of fuel cell technology it is necessary to develop new, cost-effective Pt-free electrocatalysts that could provide efficient alcohol oxidation and also resist cross-over poisoning. Here, we report new electrocatalytic materials for ethylene glycol oxidation, which are based on AuAg linear nanostructures. We demonstrate a low temperature tunable synthesis that enables the preparation of one dimensional (1D) AuAg nanostructures ranging from nanowires to a new nano-necklace-like structure. Using a two-step method, we showed that, by aging the initial reaction mixture at various temperature...
Oxidation of small organic molecules in a fuel cell is a viable method for energy production. Howeve...
The recent revolution in nanoscience and global energy demand have motivated research in liquid fuel...
Optimizing the shape, structure, and interface of noble metal bimetallic nanostructures significantl...
Using ultrathin, high aspect ratio Te nanowires as a template, we demonstrated a facile method to sy...
The main aim of this project was to develop new 1D metal based nanomaterials and explore their use f...
Developing new synthetic methods for the controlled synthesis of Pt-based or non-Pt nanocatalysts wi...
Herein, self-supported hierarchical AuPd alloyed interconnected nanowire networks (AuPd NCNs) were f...
Facile chemical synthesis of PtAg nanowires with different compositions through co-reduction of Ag a...
Fuel cells that can directly convert the chemical energy stored in fuels to electricity are attracti...
We report the synthesis of stable rGO/TiO2/Au nanowire hybrids showing excellent electrocatalytic ac...
We report the synthesis of stable rGO/TiO2/Au nanowire hybrids showing excellent electrocatalytic ac...
One-dimensional (1D) metal-coated Pd structures are efficient catalysts for the ethanol electro-oxid...
A facile synthetic route was developed to make Au nanowires (NWs) from surfactant-mediated bio-miner...
Developing active and cost-effective electrocatalysts for methanol electrooxidation is crucial to th...
Plasmonic metal nanocatalysts can be employed to efficiently boost the conventional catalytic reacti...
Oxidation of small organic molecules in a fuel cell is a viable method for energy production. Howeve...
The recent revolution in nanoscience and global energy demand have motivated research in liquid fuel...
Optimizing the shape, structure, and interface of noble metal bimetallic nanostructures significantl...
Using ultrathin, high aspect ratio Te nanowires as a template, we demonstrated a facile method to sy...
The main aim of this project was to develop new 1D metal based nanomaterials and explore their use f...
Developing new synthetic methods for the controlled synthesis of Pt-based or non-Pt nanocatalysts wi...
Herein, self-supported hierarchical AuPd alloyed interconnected nanowire networks (AuPd NCNs) were f...
Facile chemical synthesis of PtAg nanowires with different compositions through co-reduction of Ag a...
Fuel cells that can directly convert the chemical energy stored in fuels to electricity are attracti...
We report the synthesis of stable rGO/TiO2/Au nanowire hybrids showing excellent electrocatalytic ac...
We report the synthesis of stable rGO/TiO2/Au nanowire hybrids showing excellent electrocatalytic ac...
One-dimensional (1D) metal-coated Pd structures are efficient catalysts for the ethanol electro-oxid...
A facile synthetic route was developed to make Au nanowires (NWs) from surfactant-mediated bio-miner...
Developing active and cost-effective electrocatalysts for methanol electrooxidation is crucial to th...
Plasmonic metal nanocatalysts can be employed to efficiently boost the conventional catalytic reacti...
Oxidation of small organic molecules in a fuel cell is a viable method for energy production. Howeve...
The recent revolution in nanoscience and global energy demand have motivated research in liquid fuel...
Optimizing the shape, structure, and interface of noble metal bimetallic nanostructures significantl...