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Current lithium‐ion battery technology is approaching the theoretical energy density limitation, which is challenged by the increasing requirements of ever‐growing energy storage market of electric vehicles, hybrid electric vehicles, and portable electronic devices. Although great progresses are made on tailoring the electrode materials from methodology to mechanism to meet the practical demands,...
Electrodes Design for Lithium Batteries
Sluggish mass transport and charge transfer dynamics are the main bottlenecks with increasing the mass loading multiple times to commercial level. Thus, in article number 2102233, Hongchao Liu, Mingzheng Ge, Yuxin Tang, and co‐workers review the state‐of‐the‐art developments on constructing commercialization‐driven high‐capacity electrodes with high mass loading,...
In article number 1907029, Jianying Huang, Jun Hu, Yuekun Lai, Yuxin Tang, and co‐workers reveal a correlation between the oxygen evolution reaction overpotential and the cobalt‐based electrode composition in an electrospinning “Microparticles‐in‐Spider Web” superstructure electrode, leading to remarkable electrocatalytic activity.
Sluggish kinetics of the multielectron transfer process is still a bottleneck for efficient oxygen evolution reaction (OER) activity, and the reduction of reaction overpotential is crucial to boost reaction kinetics. Herein, a correlation between the OER overpotential and the cobalt‐based electrode composition in a “Microparticles‐in‐Spider Web” (MSW) superstructure electrode is revealed. The overpotential...
Robust amphiprotic-konjac glucomannan/chitosan (AP-KGM/CS) aerogels were prepared by modification of KGM with carboxymethyl and quaternary ammonium groups, and then cross-linked with chitosan. The adsorption performance of AP-KGM/CS aerogels on the anionic dyes everacid Orange N-G (C.I. Acid Orange O56), cationic dyes methylene blue (MB) and heavy metal ions (Pb2+, Cu2+, Cd2+) was investigated. The...
Two recently developed precursors, AbaCus and Super AbaCus, are evaluated for use in ultralow temperature copper deposition by plasma enhanced atomic layer deposition. Film adhesion, platability, and process window evaluation demonstrate the strong capability of these precursors to overcome current metallization challenges.
A recently developed precursor, AbaCus, has been evaluated for use in ultra-low temperature copper deposition by PEALD. Film adhesion, platability and process window evaluation demonstrate a strong capability of this precursor to overcome current metallization challenges.
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