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Organic electrodes that embrace multiple electron transfer and efficient redox reactions are desirable for green energy storage batteries. Here, a novel organic electrode material is synthesized, i.e., 2, 2′‐((disulfanediylbis (4, 1‐phenylene)) bis(azanediyl)) bis (naphthalene‐1, 4‐dione) (MNQ), through a simple click reaction between common carbonyl and organosulfur compounds and demonstrate its...
Organosulfides are promising high‐capacity cathode materials for rechargeable lithium batteries. However, sluggish kinetics and inferior utilization impede its practical application in batteries. Rationally designing redox mediators and identifying their active moieties remain formidable challenges. Currently, as a rising star of transition metal dichalcogenides, few‐layered MoSe2 decorated reduced...
As a high‐energy‐density cathode material, organosulfur has great potential for lithium batteries. However, their practical application is plagued by electronic/ionic insulation and sluggish redox kinetics. Hence, our strategy is to design a self‐weaving, freestanding host material by introducing reduced graphene oxide–supported VS2 nanosheets (VS2‐rGO) and carbon nanotubes (CNTs) for lithium–phenyl...
Achieving high energy density and long cycle life in realistic batteries is still an unmet need, which has triggered research into the discoveries of new electrode materials as well as new storage mechanisms. As a kind of new cathode materials for rechargeable lithium batteries, organosulfide compounds R‐Sn‐R (n = 3–6) based on conversion chemistries of SS bonds have many advantages and promising...
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