Ruthenium complexes occupy a central position in modern inorganic chemistry, largely due to their rich coordination chemistry and their inherent capability to mediate complex electron transfer events.

Ruthenium-functionalized nanodiamonds generate powerful solvated electrons under visible light, bypassing the deep UV ...

Ruthenium polypyridyl complexes have emerged as promising agents to probe and stabilise non-canonical nucleic acid structures, particularly RNA triplexes. These metal‐based compounds exhibit unique ...

Excessive use of fossil fuels leads to undesired carbon dioxide (CO2) generation, accelerating climate change. One way to tackle this is by converting CO2 into value-added chemicals. On this front, ...

Multinuclear organometallic junctions might be the key to realizing high-performance thermoelectric devices at the nanoscale. The unique electronic structure of organometallic ruthenium alkynyl ...

Tsukuba, Japan—Similar to the process of photosynthesis in plants, the conversion and storage of solar energy into chemical energy hold significant promise for addressing critical energy and ...

The researchers used the robust photocatalytic qualities of a ruthenium (Ru) dinuclear complex with self-photosensitizing capabilities to accomplish a highly effective CO 2 reduction process in this ...

A novel apparatus at the U.S. Department of Energy's (DOE) Argonne National Laboratory has made extremely precise ...

For decades, scientists have been trying to use the sun’s energy to turn water and carbon dioxide into fuel. While nature makes photosynthesis seem effortless, it requires choreographing multiple ...

Scientists in the United States have made an extremely precise measurements of unstable ruthenium ...