A Yolk–Shell Structured Silicon Anode with Superior Conductivity and High Tap Density for Full Lithium‐Ion Batteries
Lei Zhang,Chengrui Wang,Yuhai Dou,Ningyan Cheng,Dandan Cui,Yi Du,Porun Liu,Mohammad Al-Mamun,Shanqing Zhang,Huijun Zhao,Huijun Zhao +10 more
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TLDR
This work reports for the first time of a new yolk-shell structured high tap density composite made of a carbon-coated rigid SiO2 outer shell to confine multiple Si NPs (yolks) and carbon nanotubes (CNTs) with embedded Fe2 O3 nanoparticles (NPs).Abstract:
The poor cycling stability resulting from the large volume expansion caused by lithiation is a critical issue for Si-based anodes. Herein, we report for the first time of a new yolk-shell structured high tap density composite made of a carbon-coated rigid SiO2 outer shell to confine multiple Si NPs (yolks) and carbon nanotubes (CNTs) with embedded Fe2 O3 nanoparticles (NPs). The high tap density achieved and superior conductivity can be attributed to the efficiently utilised inner void containing multiple Si yolks, Fe2 O3 NPs, and CNTs Li+ storage materials, and the bridged spaces between the inner Si yolks and outer shell through a conductive CNTs "highway". Half cells can achieve a high area capacity of 3.6 mAh cm-2 and 95 % reversible capacity retention after 450 cycles. The full cell constructed using a Li-rich Li2 V2 O5 cathode can achieve a high reversible capacity of 260 mAh g-1 after 300 cycles.read more
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Diverting Exploration of Silicon Anode into Practical Way: A Review Focused on Silicon-Graphite Composite for Lithium Ion Batteries
TL;DR: In this article, the necessity of co-exploitation of silicon and graphite is highlighted, and representative silicon-graphite anodes along with various approaches for composite construction are organized.
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Porosity‐ and Graphitization‐Controlled Fabrication of Nanoporous Silicon@Carbon for Lithium Storage and Its Conjugation with MXene for Lithium‐Metal Anode
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2020 Roadmap on Carbon Materials for Energy Storage and Conversion.
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TL;DR: The research related to carbon materials for energy storage and conversion is at extremely active stage, and this has motivated the authors to contribute with a roadmap on 'Carbon Materials in Energy Storage and Conversion'.
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An Ultra‐Long‐Life Lithium‐Rich Li1.2Mn0.6Ni0.2O2 Cathode by Three‐in‐One Surface Modification for Lithium‐Ion Batteries
TL;DR: A three-in-one surface treatment via the pyrolysis of urea to improve the voltage and capacity stability of Li1.2Mn0.6Ni0.2O2 (LMNO) and can suppress the voltage decay and capacity fading of LLOs for possible practicability in the near future.
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Production of high-energy Li-ion batteries comprising silicon-containing anodes and insertion-type cathodes.
Gebrekidan Gebresilassie Eshetu,Gebrekidan Gebresilassie Eshetu,Heng Zhang,Xabier Judez,Henry Adenusi,Michel Armand,Stefano Passerini,Stefano Passerini,Egbert Figgemeier,Egbert Figgemeier +9 more
TL;DR: In this paper, the progress, current status, prevailing challenges and mitigating strategies of Li-based battery systems comprising silicon-containing anodes and insertion-type cathodes are presented, accompanied by an assessment of their potential to meet the targets for evolving volume and weight-sensitive applications such as electromobility.
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Sodium Carboxymethyl Cellulose A Potential Binder for Si Negative Electrodes for Li-Ion Batteries
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