Biometabolically Derived Selenium Nanoparticles Armed with Protein Protective Suit toward High‐Performance Li‐Se Batteries

Biometabolically Derived Selenium Nanoparticles Armed with Protein Protective Suit toward High‐Performance Li‐Se Batteries

Selenium (Se) serves as a burgeoning high‐energy‐density cathode material in lithium‐ion batteries. However, the development of Se cathode is strictly limited by low Se utilization and inferior cycling stability arising from intrinsic volume expansion and notorious shuttle effect. Herein, a microbia...

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Veröffentlicht in:Advanced materials (Weinheim) 2024-09, Vol.36 (36), p.e2406894-n/a
Hauptverfasser: Xia, Yang, Lu, Chengwei, Fan, Wenluxi, Fang, Ruyi, Xu, Lusheng, Huang, Haichan, Xiao, Zhen, Zhang, Jun, Huang, Hui, Gan, Yongping, He, Xinping, Tao, Xinyong, Xia, Xinhui, Zhang, Wenkui
Format: Artikel
Sprache:eng
Schlagworte:
Bacillus subtilis
bacteria
Cathodes
Cathodic protection
Chemical reactions
Chemisorption
Cycles
Electric Power Supplies
Electrode materials
Electrodes
Globules
Lithium - chemistry
Lithium-ion batteries
Li–Se batteries
microbial metabolism
Microorganisms
Nanomaterials
Nanoparticles
Nanoparticles - chemistry
protein
Proteins
Selenites
Selenium
Selenium - chemistry
Stability
water treatment
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