The Engineer5d
Ruthenium catalyst developed for sustainable hydrogen production
The next generation of sustainable hydrogen production could be made possible with an advanced electrochemical catalyst.
Core-shell nanocluster catalyst enables high-efficiency, low-cost and eco-friendly hydrogen production
A Korean research team has successfully developed an advanced electrochemical catalyst. This innovation is expected to lead ...
EurekAlert!8d
SNU researchers develop an electrochemical catalyst for high-efficiency, low-cost, and eco-friendly hydrogen production
Seoul National University’s College of Engineering has announced a major breakthrough in eco-friendly hydrogen production. A ...
Self-improving catalyst boosts hydrogen generation from ammonia
By maximizing the catalyst's surface area, this method ensures the most efficient use of rare elements like ruthenium (Ru).
AZoNano on MSN4d
Engineered Nanoclusters for Enhanced Stability in Hydrogen Evolution
The new ruthenium core-shell catalyst sets a benchmark in hydrogen production, combining high efficiency with reduced ...
Hosted on MSN9mon
Enhancing green hydrogen production with robust carbon fabric electrocatalysts
as well as their ease of use across large surfaces. Taking a step further, the research team integrated ruthenium (Ru) into the polymer precursor fiber during the manufacturing process ...
University of Manchester11mon
Scientists unveil cutting-edge ruthenium catalyst for new reaction discovery and optimisation
For example, the production of polyethylene, a common plastic used in various everyday items such as bottles and containers or found in cars to convert harmful gases from the engine's exhaust into ...