Abstract With continuous advancements in Li-ion battery technology, it has become imperative to develop battery health assessment with general applicability. In particular, the batteries can satisfy a range of energy demands for diverse end... Read More
Abstract Chalcogenides are promising materials for photoelectrochemical (PEC) water splitting owing to their suitable band gaps, favourable band alignments, and efficient charge transport properties. However, their practical application has... Read More
Abstract Side-chain engineering, a powerful approach to tune molecular properties and charge transport, has to the best of our knowledge never been applied to n-type semiconductors in perovskite-organic heterojunction photodetectors (POH-PD... Read More
Abstract The growing demand for sustainable power sources in distributed electronics and wearable devices requires stable, scalable, and maintenance-free energy harvesters. However, most existing systems rely on mechanical deformation, envi... Read More
Abstract Layered titanates (LTs) offer exceptional structural and chemical tunability, enabling precise modulation of their electronic states and catalytic properties. However, systematic studies on the range of cations that can serve as in... Read More
Abstract Freshwater scarcity demands innovative solutions that combine efficiency, durability, and scalability. Here, CuMnCrO4 (CMCO), is presented as a ternary spinel oxide photothermal absorber introduced for the first time in solar desal... Read More
Abstract Thick electrodes are essential for achieving high-energy-density lithium-ion batteries, yet their performance is often constrained by transport limitations. A central factor is the carbon-binder domain (CBD), which plays a dual rol... Read More
Four faculty members from UNIST have been elected as new members of the National Academy of Engineering of Korea (NAEK), one of Korea’s most prestigious honors related to engineering and technology. On January 11, NAEK announced that... Read More
Abstract Biodegradable artificial synapses hold great promise for sustainable neuromorphic electronics, yet combining long-term memory, ultralow energy consumption, and mechanical robustness remains challenging. Here, we report a fully biod... Read More
Abstract Conventional studies on water electrolysis have primarily focused on designing novel electrocatalysts and membranes, with intrinsic properties closely linked to the immediate performance of water electrolyzers. However, less attent... Read More
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