Single-Crystalline, Semiconductive Layered Organic Cathode Powers High-Energy All-Solid-State Batteries. [PDF]
ACS Cent SciMo J, Wang J, Dincă M.
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Advanced Materials, EarlyView.A dual‐additive electrolyte strategy is developed to address the hydrolysis of I+ in the aqueous electrolytes. The steric‐hindrance effect of TES− effectively shields I+ from nucleophilic attacks by hydroxyl groups, facilitating the reversible I−/I0/I+ conversion with four‐electron transfer.
Shuai Wang +8 more
wiley +1 more source
High-throughput discovery of Li<sub>3</sub>Sc<sub>2</sub>(PO<sub>4</sub>)<sub>3</sub> as a protective coating for stabilizing mid-Ni NCM interfaces in all-solid-state batteries. [PDF]
Nano ConvergKim JH, Lee S, Lee SU.
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Advanced Materials, EarlyView.Molecularly engineered self‐assembled monolayers (SAMs) featuring extended conjugated terminals facilitate superior interfacial coupling with the organic solar cell active layer. By physically anchoring the local morphology, this design suppresses thermal degradation, allowing devices to operate at 85°C for 150 h before degrading to 90% of their ...
Gengxin Du +17 more
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Economic Low-Carbon Chemical Production via Paired Electrolysis of Carbon Monoxide (CO) and 5-hydroxymethylfurfural (HMF). [PDF]
Adv MaterLee MY +10 more
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Advanced Materials, EarlyView.Polymer electrolytes (PEs) are often indiscriminately grouped as “solid polymer electrolytes (SPEs)”, despite fundamental differences in their ion‐transport mechanisms. This Perspective establishes a mechanism‐based framework that distinguishes gel, quasi‐solid, and all‐solid polymer electrolytes based on their dominant ion‐transport pathways.
Jing Chen +15 more
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High-energy anode-free Li metal batteries with in-built surface-fluorinated Li-rich Mn-based cathodes. [PDF]
Sci AdvHu W +14 more
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Advanced Materials, EarlyView.A general, versatile laser‐shock synthesis process is reported to produce various bimetallic CuNi, CuFe, CuCo, and medium‐entropy CuFeCoNi heterostructures, in which crystalline metal nanoparticles are anchored to amorphous hydroxide supports. During nitrate reduction reaction, the heterostructures undergo dynamic amorphous/crystalline reconstruction ...
Weihua Guo +18 more
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Engineering CO2 Reduction Pathways via Alloy‐Support Interactions in Li‐CO2 Batteries
Advanced Materials, EarlyView.Alloy‐support interactions in RuCu/NC induce interfacial charge redistribution and shift d‐band centers, steering CO2 reduction from Li2CO3 to metastable Li2C2O4. This pathway engineering lowers the rate‐determining barrier and suppresses carbonate formation, enabling high discharge voltage (3.23 V) in Li‐CO2 batteries with reduced overpotential (0.50 ...
Liang Sun +8 more
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Halide-Based Solid Electrolytes for Advanced All-Solid-State Batteries: Design, Interfaces, and Electrochemical Performance. [PDF]
Nanomicro LettGuddehalli Chandrappa S +2 more
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