For too long, good quality, efficient batteries have been inaccessible to many due to high costs associated with the platinum group metal (PGM) species used to create them.
Is the future of battery storage here? A new cathode, MoSe2+x-rGO, may be the key to creating batteries with enhanced energy storage and increased longevity. The research is a key step towards enabling better portable electronic devices and more efficient batteries.
With more and more reliance on screens comes a need to make organic light-emitting diodes (OLEDs) more efficient and long lasting. Yi-Zhong She et al review the current landscape of thermally activated delayed fluorescence emitters (TADF) and the potential road ahead in increasing their efficiency in Chemical Science.
Intricate patterns in nature could be the answer to tackling antimicrobial resistance, according to new research published in °ÄÃÅÁùºÏ²Ê¿ª½±¼Ç¼ Advances.
Scientists in South Korea have developed a novel reserve battery that combines long shelf life with flexibility and could have useful applications in wearable devices.
A detailed study of molecules called N-glycans in frog embryos suggests they play a vital role in developing the nervous systems in vertebrates, including ourselves.
Superamphiphobic material can ‘bounce’ water droplets from air. The new solution could produce ultra-fog resistant car windows and faster drainage systems.
This week’s Chemical Science Pick of the Week describes how the formation energy of oxygen vacancies in metal oxides is an accurate descriptor of the energy input needed for C–O and N–O bond scission.
In our Chemical Science Pick of the Week, a novel cancer-targeting iridium complex was demonstrated to act as an effective radiosensitiser for image-guided cancer radiochemotherapy.