A significant advancement has been reached in the advancement of non-volatile phase change memory, a form of electronic memory capable of retaining data even when power is disconnected, in a material that had not previously exhibited the necessary characteristics for such memory.
Ternary organic solar cells (TOSCs) have recently had their material modified by researchers from the Qingdao Institute of Bioenergy and Bioprocess Technology (QIBEBT) of the Chinese Academy of Sciences (CAS), who have reached efficiencies similar to those of their conventional solar cell cousins.
Technology is about to undergo a revolution that will alter how devices are utilized. A group of brilliant scientists from the Institute for Basic Science (IBS) in South Korea, led by the esteemed Professor Young Hee Lee, have made an innovative finding that could significantly enhance the production of field-effect transistors (FET).
Carbon dioxide emissions captured could be converted into valuable chemicals using a selective process powered by renewable energy. By performing the reaction at high pressure, CO2 can be electrochemically transformed into a specific product.
Recent research by Tokyo Tech investigators indicated that a-FAPbI3, a promising solar cell material with a cubic perovskite structure that is metastable at room temperature, can be stabilized by introducing a pseudo-halide ion like thiocyanate (SCN-) into its structure.
Investigators at Duke University and Purdue University have demonstrated that by limiting the arrangement of multiple inorganic and organic layers within crystals using a novel technique, they can regulate the energy levels of electrons and holes (positive charge carriers) within a class of materials known as perovskites.
Renowned laboratory experts, Asynt, launch the NEW DrySyn Prodigy which offers oil-free heating of round bottom flasks up to 500 mL using fully recyclable materials.
A research group from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, under the direction of Prof. Yunxia Zhang, developed a solid-phase sintering strategy to enable direct conversion of the degraded LiCoO2 (D-LCO) into the high energy density cathode materials.
HydRegen, the biotechnology company enabling sustainable chemical manufacturing, and researchers from the University of Nottingham’s Faculty of Engineering collaborate in a project to unlock sustainable biocatalytic hydrogenation and receive grant funding from BBSRC, EPSRC and IUK to complete the feasibility study.
Researchers have successfully generated electricity directly from methylcyclohexane, an organic hydride, using solid oxide fuel cells, with lower energy than conventional catalytic dehydrogenation reactions.
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