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Rhodium (Rh)‐based catalysts may solve the long‐standing inefficient oxidation of ethanol for direct ethanol fuel cells (DEFCs); however, the performance of ethanol oxidation reaction (EOR) on existing Rh‐based catalysts are far limited. Herein, the Rh–Pb catalysts are synthesized by building Pb and Pb oxide around Rh nanodomain, which shows highly efficient splitting CC bond and facile further oxidation...
In article number 1905516, Wen‐Wei Wu and co‐workers fabricate the hybrids of heterojunctions of few‐layer MoS2 in terms of diverse layer variation and stacking configuration, through in‐situ scanning/transmission electron microscopy heating. The salient dynamics inherent in few‐layer MoS2 are investigated and first observed at the atomic scale, including scrolling, folding, etching, and restructuring...
Layered MoS2 is a prospective candidate for use in energy harvesting, valleytronics, and nanoelectronics. Its properties strongly related to its stacking configuration and the number of layers. Due to its atomically thin nature, understanding the atomic‐level and structural modifications of 2D transition metal dichalcogenides is still underdeveloped, particularly the spatial control and selective...
Significant progress in DNA nanotechnology has accelerated the development of molecular machines with functions like macroscale machines. However, the mobility of DNA self‐assembled nanorobots is still dramatically limited due to challenges with designing and controlling nanoscale systems with many degrees of freedom. Here, an origami‐inspired method to design transformable DNA nanomachines is presented...
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