New strategy uses electron equivalents to create the first rules for synthesizing low-symmetry colloidal crystals, including structures never found in nature.
A tunable platform made from atomically thin materials may help researchers figure out how to create a robust quantum condensate that can flow without losing energy.
Scientists engineer a nanoparticle polymer that can selectively bind to fibrinogen in human plasma, presenting a pathway for improved drug development.
Scientists have demonstrated the role of the re-use of photons - known as 'photon recycling' - and light scattering effects in perovskite solar cells, providing a pathway towards high-efficiency solar energy conversion.
Researchers developed a holistic approach, which predicts both Li-ion storage and supercapacitive properties and hence identifies various important electrode materials that are common to both devices, may pave the way for next-generation energy storage systems. By leveraging the big-data generated by the computational pipeline, the team trains crystal graph-based machine learning models and demonstrates how this data-driven model could be helpful for the rapid discovery of potential ...
Research into promising materials is hampered by the sheer number of possible candidates. A research team has developed an efficient method to solve this problem.
Researchers propose an alternate fabrication method for diamond probes with greater control over probe shape, higher sensitivity, and broader applications.
