Artificial intelligence advances how scientists explore materials. Researchers from Ames Laboratory and Texas A&M University trained a machine-learning (ML) model to assess the stability of rare-earth compounds.
Professor Iván Mora Seró of the Universitat Jaume I of Castelló’s Institute of Advanced Materials (INAM) led a research team that improved the efficiency and durability of tin perovskite solar cells.
Scientists at the University of Colorado Boulder have discovered a new device that could contribute to more efficient and cheaper methods of extracting heat-trapping gases from the environment and transforming them to useful substances such as fuel or construction materials.
Noble metals have been widely used as heterogeneous catalysts because they easily stand out with high activity and selectivity for many reactions of both scientific and industrial interest.
Researchers from North Carolina State University and the University at Buffalo have developed and demonstrated a 'self-driving lab' that uses artificial intelligence (AI) and fluidic systems to advance our understanding of metal halide perovskite (MHP) nanocrystals.
In an article recently published in the journal ACS Applied Energy Materials, researchers discussed the development of high-performance silicon anodes in lithium (Li)-ion batteries with chitosan-grafted-gallic acid as a nature-inspired multifunctional binder.
Prof. Matsuda research group at Department of Electrical and Electronic Information Engineering, Toyohashi University of Technology, revealed that an indentation test can effectively evaluate the mechanical properties of a sulfide solid electrolyte for all-solid-state lithium-ion secondary batteries.
A honeybee’s tongue, which is densely covered in hairs, is used to lap up nectar and other liquids. Scientists recently reported that those hairs are water repellent.
New structural discovery has a lot of potential for accessing new functional materials for environmental and energy purposes. Although cage-based porous materials, such as metal-organic polyhedra (MOPs), are gaining interest as a developing functional platform for a variety of applications, packing patterns that are rarely foreseeable and appear uncontrollable remain an unresolved subject.
A problem in materials design is that in natural as well as artificial materials, volume occasionally drops, or surges, with rising temperature. While there are mechanical reasons for this occurrence for certain materials, a general insight into why this occasionally occurs is still lacking.
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