Results 211 to 220 of about 775,595 (386)
SPECTROSCOPIC STUDIES OF LUMINESCENCE AT THE CATHODE DURING ELECTROLYSIS [PDF]
, 1935 Iturô Uhara
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Electrolyte Engineering Strategy with Catecholate Type Additive Enabled Ultradurable Zn Anode
Advanced Functional Materials, EarlyView.A catecholate‐type molecule is proposed as a multifunctional electrolyte additive, providing a strong buffering ability as well as homogeneous (101)‐textured electroplating morphology. The modified Zn anode exhibits a remarkable rate capability, extraordinary reversibility, and superior cyclic stability.
Wenyu Liang +9 more
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Exploring the Electrochemical Stability Window of an All-Solid-State Composite Cathode via a Novel <i>Operando</i> Tender XPS Setup. [PDF]
ACS Appl Mater InterfacesWilhelm R +8 more
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Diffraction of Cathode Rays by a Thin Film
, 1927 George Paget Thomson, A. F. Reid
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A Method of Reducing Deflection Defocusing in Cathode-Ray Tubes [PDF]
, 1950 R. Hutter, S. W. Harrison
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Advanced Functional Materials, EarlyView.Silicon anodes in sulfide‐based all‐solid‐state batteries suffer from interfacial instability caused by volumetric fluctuations and contact degradation, restricting their practical implementation despite high capacity. This study presents design strategies that leverage controlled active material expansion and an elastic recoverable anolyte to form an ...
Youngjin Song +7 more
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Iodide-mediated intermediate regulation strategy enables high-capacity and ultra-stable zinc-iodine batteries. [PDF]
Chem SciXu Z +8 more
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The velocity of the secondary cathode particles ejected by the characteristic Röntgen rays [PDF]
, 1912 R. Whiddington
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Chloride‐Mediated Electron Buffering on Ni‐Fe Anodes for Ampere‐Level Alkaline Seawater Electrolysis
Advanced Functional Materials, EarlyView.Utilizing abundant chloride ion (Cl−) of seawater, the small organic molecule (SOM) layer on the electrocatalyst surface is converted to SOM‐Cl layer. Meanwhile, the conjugated structure of SOM is modified. SOM‐Cl layer can effectively mitigate the damage caused by the highly oxidative environment.
Qian Niu +4 more
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