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Targeted protein degradation (TPD) is an emerging therapeutic strategy with the potential of targeting undruggable pathogenic proteins. After the first proof‐of‐concept proteolysis‐targeting chimeric (PROTAC) molecule was reported, the TPD field has entered a new era. In addition to PROTAC, numerous novel TPD strategies have emerged to expand the degradation landscape. However, their physicochemical...
Li metal is considered as an ideal anode for Li‐based batteries. Unfortunately, the growth of Li dendrites during cycling leads to an unstable interface, a low coulombic efficiency, and a limited cycling life. Here, a novel approach is proposed to protect the Li‐metal anode by using a uniform agarose film. This natural biopolymer film exhibits a high ionic conductivity, high elasticity, and chemical...
Tungsten ditelluride (WTe2) is a semimetal with orthorhombic Td phase that possesses some unique properties such as Weyl semimetal states, pressure‐induced superconductivity, and giant magnetoresistance. Here, the high‐pressure properties of WTe2 single crystals are investigated by Raman microspectroscopy and ab initio calculations. WTe2 shows strong plane‐parallel/plane‐vertical vibrational anisotropy,...
V2O5 decorated carbon nanofibers (CNFs) are prepared and used as a multifunctional interlayer for a lithium–sulfur (Li–S) battery. V2O5 anchored on CNFs can not only suppress the shuttle effect of polysulfide by the strong adsorption and redox reaction, but also work as a high‐potential dam to restrain the self‐discharge behavior in the battery. As a result, Li–S batteries with a high capacity and...
Anovel lithiated Si–S battery exploiting an optimized solid‐like electrolyte is presented. This electrolyte is fabricated by integrating ether‐based liquid electrolyte with SiO2 hollow nanosphere layer to suppress the shuttle effect and fluoroethylene carbonate additive to optimize the anodic solid electrolyte interface. The prepared lithiated Si–S batteries exhibit enhanced cycle life, low flammability,...
A novel lithiated silicon‐sulfur battery is presented by B. Li, F. Kang, and co‐workers in article number 1602015. A solid‐like electrolyte fabricated by integrating a silicon oxide hollow nanosphere layer and ether‐based electrolyte with a fluoroethylene carbonate additive was exploited. The prepared battery exhibited enhanced cycle life, low flammability, and strong recovery ability against short‐circuits...
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