Researchers at Berkeley Lab have used bimetallic nanoparticles as a catalyst in the process for reduction of carbon dioxide. Chemist Peidong Yang of the Materials Sciences Division at Berkeley Lab has led the study.
A team of researchers has analyzed a new approach for tuning of gallium arsenide (GaAs). This material possesses natural semiconducting properties. The nanoparticle and nanowire form of GaAs can be used in applications where silicon is being presently used, such as in the manufacture of optoelectronics and solar cells.
EPFL researchers have succeeded in combining perovskite solar cells and nickel iron catalysts to obtain an amazing 12.3% solar to hydrogen efficiency.
A new method to enhance the performance and the reliability of carbon nanotubes-based circuits and transistors has been developed by a group of researchers from the Northwestern University and the University of Texas at Austin.
Researchers at the Los Alamos National Laboratory have discovered unique characteristics in nanocomposite oxide ceramics that hold promise for nuclear fuels, fast ion conductors, ferroelectrics, and for storage of nuclear waste. Composites can be used for a wide range of applications, as their interfaces possess distinctive ionic and electronic properties that may help improve conductivity of materials.
Experts from three universities have collaborated to develop nickel-titanium alloy nanoparticles for electrical and thermal sensors used to control high technology devices utilized in a wide range of industries such as aerospace, electronics, optical, biomedical, and petrochemical industries.
A team of researchers at Penn State University have created a new method to produce ultra-thin ‘diamond nanothreads’. This material is expected to possess exceptional stiffness and strength compared to existing high strength polymers and nanotubes.
Phase-Change Materials (PCMs), which have been around since the 1960s when they were used in optical-memory devices, are currently being adapted for electronic-memory operations and are set to replace silicon-aided flash memory in smartphones.
A new star-shaped molecule has been produced at The University of Manchester. It is considered to be the most complex molecule of its type to be ever created.
A team of researchers from the University of Swansea have developed a highly sensitive graphene biosensor with the capability to detect molecules which show signs of increased cancer risk.
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