ScienceGate Book Chapters
JOURNAL ARTICLE

Kinetics-driven high power Li-ion battery with a-Si/NiSi<inf>x</inf> core-shell nanowire anodes

Sunyoung YooKibum KangKyeongse SongHoseok HeoYong‐Mook KangMoon‐Ho Jo

Year: 2011 Vol: 96 Pages: 210-213
DOI: 10.1109/nmdc.2011.6155343
   Get Full-Text PDF    Get Analytical Report

Abstract

Anode architectures are closely related with Li-ion battery performance, particularly when the anodes are three-dimensional at the nanometer scale. Therein, the achievable electrochemical capacity and the power characteristics are inherently determined by a series of phase transitions involved in the anode during lithiation/delithiation. Here, we report an amorphous-silicon (a-Si) supported by metallic NiSi x nanowire (NW) core grown by simple two-step SiH4 CVD on Ni films for a Li-ion battery anode structure, where the metallic core act as a mechanical supporter and supplies kinetically unlimited electron transport. We achieved the highly reversible capacity over 3000 mAh/g even at 2C rate with its stable cyclic retention. We argue that a-Si/NiSi x NW follow a potentially ideal route for reversible and fast phase transitions, compared to bare Si NWs, and thus can provide implication for the high power and high capacity energy storage devices.

Keywords:
Anode Nanowire Materials science Battery (electricity) Electrochemistry Amorphous solid Silicon Ion Phase-change memory Nanotechnology Optoelectronics Topology (electrical circuits) Electrode Power (physics) Crystallography Electrical engineering Chemistry Physical chemistry Physics Thermodynamics Organic chemistry Layer (electronics)

Metrics

1
Cited By
0.24
FWCI (Field Weighted Citation Impact)
22
Refs
0.59
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Advancements in Battery Materials
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Supercapacitor Materials and Fabrication
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials
Advanced Battery Materials and Technologies
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

Related Documents

JOURNAL ARTICLE

Ge-Si<inf>x</inf>Ge<inf>1-x</inf> core-shell nanowire tunneling field-effect transistors

Junghyo NahYonghyun KimE. -S. LiuKamran M. VarahramyanSanjay K. BanerjeeEmanuel Tutuc

Year: 2010 Pages: 145-146
JOURNAL ARTICLE

First-principles study on Ge<inf>1−x</inf>Sn<inf>x</inf>-Si core-shell nanowire transistors

Zeguo GuFeng XuBin GaoHuaqiang WuHe Qian

Year: 2018 Vol: 84 Pages: 1-4
JOURNAL ARTICLE

Fabrication of Si<inf>1-x</inf>Ge<inf>x</inf> alloy nanowire FETs

Eun‐Kyoung JeonHan-Kyu SungJeong-O LeeHeon‐Jin ChoiJinhee Kim

Year: 2006 Vol: 28 Pages: 502-503
JOURNAL ARTICLE

Kinetics-driven high power Li-ion battery with a-Si/NiSix core-shell nanowire anodes

Kibum KangKyeongse SongHoseok HeoSunyoung YooGil-Sung KimGeunhee LeeYong‐Mook KangMoon‐Ho Jo

Journal:   Chemical Science Year: 2011 Vol: 2 (6)Pages: 1090-1090
JOURNAL ARTICLE

Selective GeO<inf>x</inf>-scavenging from interfacial layer on Si<inf>1−x</inf>Ge<inf>x</inf> channel for high mobility Si/Si<inf>1−x</inf>Ge<inf>x</inf> CMOS application

C. H. LeeH. KimP. JamisonRichard G. SouthwickShinichi MochizukiKôji WatanabeR. BaoRohit GalatageS. GuillaumetTakashi AndoR. K. PandeyAniruddha KonarB. LherronJody FronheiserS. SiddiquiH. JagannathanVamsi Paruchuri

Year: 2016 Pages: 1-2
© 2026 ScienceGate Book Chapters — All rights reserved.