Engineers develop electrodes to remove boron from seawater, cutting desalination costs and boosting sustainability in water ...

Water desalination plants could replace expensive chemicals with new carbon cloth electrodes that remove boron from seawater, an important step of turning ...

Water desalination plants could replace expensive chemicals with new carbon cloth electrodes that remove boron from seawater, ...

Engineers develop innovative carbon cloth electrodes for desalination, effectively eliminating boron and cutting treatment ...

Transition metals have long been used as catalysts to activate small molecules and turn them into valuable products. However, as these metals can be expensive and less abundant, scientists are ...

Diamond, often celebrated for its unmatched hardness and transparency, has emerged as an exceptional material for high-power ...

Heterogeneous catalysts speed up chemical reactions by being in a different state than the reactants. They are efficient and ...

Researchers found boron-doped diamonds exhibit plasmons, enhancing electric field control on the nanoscale. This discovery ...

Ken Wade recalls his own undistinguished part in the space race, and notes how carboranes revitalized boron hydride chemistry and modified our ideas of chemical bonding. In the 1950s, during the ...

Diamonds aren’t just for jewelry anymore — they’re stepping into the future of technology. Scientists have discovered how ...

Learn how boron-doped diamond (BDD) is unlocking new possibilities in the fields of medical sensors and quantum computing.

Professor Yap is interested in the fundamentals of synthesis, characterization, and applications of quantum materials and nanomaterials, including B-C-N nanostructures (carbon, boron nitride, boron ...