Catalyst-Free, High-Loading Silicon Nanowires Anodes for Lithium Ion Batteries

Dan Schneier; Svetlana Menkin; Nimrod Harpak; Guy Davidi; Edna Mados; Gilat Ardel; Fernando Patolsky; Diana Golodnitsky; Emanuel Peled

doi:10.1149/ma2019-04/1/14

Catalyst-Free, High-Loading Silicon Nanowires Anodes for Lithium Ion Batteries

Dan Schneier, Svetlana Menkin, Nimrod Harpak, Guy Davidi, Edna Mados, Gilat Ardel, Fernando Patolsky, Diana Golodnitsky, Emanuel Peled

School of Chemistry

Tel Aviv University

Research output: Contribution to journal › Meeting Abstract › peer-review

Abstract

We report on the scalable synthesis and characterization of novel architecture three-dimensional high-capacity amorphous Silicon Nanowires (SiNWs)-based anodes, with less than a third of the thickness of common graphite anodes. The SiNWs were grown by a novel, catalyst-free chemical vapor deposition (CVD) process, on a commercial stainless steel (SS) mesh. By using our novel, low-cost CVD procedure we synthesized binder-free anodes with loadings of up to 5mgSi/cm2, that have shown stable cycle life for over 600 cycles and provided capacities of up to 6mAh/cm2, very low (

Original language	English
Article number	MA2019-04 14
Pages (from-to)	14
Number of pages	1
Journal	ECS Meeting Abstracts
Volume	MA2019-04
DOIs	https://doi.org/10.1149/ma2019-04/1/14
State	Published - 2019

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

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10.1149/ma2019-04/1/14

http://dx.doi.org/10.1149/MA2019-04/1/14

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title = "Catalyst-Free, High-Loading Silicon Nanowires Anodes for Lithium Ion Batteries",

abstract = "We report on the scalable synthesis and characterization of novel architecture three-dimensional high-capacity amorphous Silicon Nanowires (SiNWs)-based anodes, with less than a third of the thickness of common graphite anodes. The SiNWs were grown by a novel, catalyst-free chemical vapor deposition (CVD) process, on a commercial stainless steel (SS) mesh. By using our novel, low-cost CVD procedure we synthesized binder-free anodes with loadings of up to 5mgSi/cm2, that have shown stable cycle life for over 600 cycles and provided capacities of up to 6mAh/cm2, very low (",

author = "Dan Schneier and Svetlana Menkin and Nimrod Harpak and Guy Davidi and Edna Mados and Gilat Ardel and Fernando Patolsky and Diana Golodnitsky and Emanuel Peled",

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doi = "10.1149/ma2019-04/1/14",

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journal = "ECS Meeting Abstracts",

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TY - JOUR

T1 - Catalyst-Free, High-Loading Silicon Nanowires Anodes for Lithium Ion Batteries

AU - Schneier, Dan

AU - Menkin, Svetlana

AU - Harpak, Nimrod

AU - Davidi, Guy

AU - Mados, Edna

AU - Ardel, Gilat

AU - Patolsky, Fernando

AU - Golodnitsky, Diana

AU - Peled, Emanuel

PY - 2019

Y1 - 2019

N2 - We report on the scalable synthesis and characterization of novel architecture three-dimensional high-capacity amorphous Silicon Nanowires (SiNWs)-based anodes, with less than a third of the thickness of common graphite anodes. The SiNWs were grown by a novel, catalyst-free chemical vapor deposition (CVD) process, on a commercial stainless steel (SS) mesh. By using our novel, low-cost CVD procedure we synthesized binder-free anodes with loadings of up to 5mgSi/cm2, that have shown stable cycle life for over 600 cycles and provided capacities of up to 6mAh/cm2, very low (

AB - We report on the scalable synthesis and characterization of novel architecture three-dimensional high-capacity amorphous Silicon Nanowires (SiNWs)-based anodes, with less than a third of the thickness of common graphite anodes. The SiNWs were grown by a novel, catalyst-free chemical vapor deposition (CVD) process, on a commercial stainless steel (SS) mesh. By using our novel, low-cost CVD procedure we synthesized binder-free anodes with loadings of up to 5mgSi/cm2, that have shown stable cycle life for over 600 cycles and provided capacities of up to 6mAh/cm2, very low (

U2 - 10.1149/ma2019-04/1/14

DO - 10.1149/ma2019-04/1/14

M3 - موجز برنامج المؤتمر

SN - 2151-2043

VL - MA2019-04

SP - 14

JO - ECS Meeting Abstracts

JF - ECS Meeting Abstracts

M1 - MA2019-04 14

ER -

Catalyst-Free, High-Loading Silicon Nanowires Anodes for Lithium Ion Batteries

Abstract

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