Tracking ultrafast charge rearrangement during molecular breakup using time-resolved X-ray photoelectron spectroscopy.

Scientists from Tokyo Metropolitan University have discovered that a hydrogen-absorbing material shrinks in one direction ...

Methanol is a key starting material for chemical products. Researchers can now produce this precursor from CO2 and hydrogen ...

A new catalyst built from isolated indium atoms allows scientists to convert CO2 into methanol more efficiently while revealing the hidden chemistry that drives the reaction.

As electronic and energy devices continue to shrink, traditional materials increasingly struggle with instability and loss of functionality at nanoscale dimensions.

A new catalyst strategy developed at Institute of Science Tokyo uses BaSi2 as a support for nickel and cobalt to decompose ...

A study by scientists at Hunan University introduces a new hydrogen isotope separation method that leverages proton quantum tunneling to produce heavy water, overcoming the key physical limitation ...

Chemistry professor lends his expertise to discuss the potential of green hydrogen to be used in the energy economy for ...

A research team has developed a technology to precisely control the concentration of anion defects in eco-friendly quantum dots through joint research. Through this technology, the research team ...

Nanomedicine is rapidly transforming the landscape of cancer treatment through the development of advanced drug-delivery carriers. Despite notable progress ...

Iran cannot use 60% enriched uranium directly in its current form (UF₆, which is stored as a solid in cylinders but handled ...