Researchers used all-inorganic nonhazardous germanium halides as ideal halide sources to synthesize both Pb-free and Pb-based PNCs with high optoelectronic quality.
This study is a first step for the development of a new family of these molecular structures with potential applications both in the field of nanomedicine and in the energy field.
Researchers have developed a platform that predicts the catalytic activity of nanozymes, a type of artificial enzymes. It takes seconds for the new algorithm to identify all the main reaction features and suggest the best conditions for running it.
Scientists propose a novel approach to the synthesis of molecular structures that can allow material scientists to design and build a set of new materials. By splitting in a controlled way only selected bonds in the lattice of some molecules or materials, structures exhibiting different properties from the original ones are obtained.
Researchers set a new record in the power conversion efficiency of solar cells made using perovskite and organic materials. This technological breakthrough paves the way for flexible, light-weight, low cost and ultra-thin photovoltaic cells which are ideal for powering vehicles, boats, blinds and other applications.
Researchers have developed a device that converts frequency to power. Frequency is a quantity that can be set with low uncertainty, and therefore it provides a solid basis for a new standard.
