A team of researchers has identified atomic distortions that may be linked with high-temperature superconductivity in a ...

As the global demand for sustainable energy solutions intensifies, the efficiency of devices like metal-air batteries and ...

Trivalent titanium occurs only when the amount of oxygen available for chemical reactions is low. Thus, the abundance of ...

A research team led by Professor Sang Uck Lee of the School of Chemical Engineering at SKKU in collaboration with Research ...

Photosynthetic bacteria do not release oxygen during photosynthesis but can convert solar energy into chemical energy with ...

A new breakthrough is transforming MXenes—ultra-thin, high-tech materials—into something far more powerful and precise.

Researchers developed a ternary platinum-cobalt-manganese nanocatalyst with tenfold higher activity and 96% durability retention for hydrogen fuel cells.

A research team has developed a next-generation platinum-based catalyst that improves both activity and durability in ...

In a recent study published in Nature Communications, researchers created a memristor that uses a built-in oxygen gradient to ...

Researchers have developed a new type of engineered biochar that can deliver oxygen in a controlled and stable way, offering ...

Scientists have zoomed in on how phosphoric acid moves electrical charges so efficiently in both biology and technology. By ...

Researchers activated the full basal plane of tungsten diselenide through atomic vacancies, achieving over 550 stable lithium ...