Improved cycling stability of silicon thin film electrodes through patterning for high energy density lithium batteries

Journal of Power Sources

Volumn 196, Issue 3, 2011, Pages 1409-1416

  Xiao, X ^a   Liu, P ^b   Verbrugge, M W ^a   Haftbaradaran, H ^c   Gao, H ^c  

^a GENERAL MOTORS CORPORATION   (United States)

^b Hughes Aircraft Co   (United States)

^c Brown University   (United States)

Author keywords

Crack; Lithium ion battery; Mechanical degradation; Negative electrode; Patterning; Silicon

Indexed keywords

CONTINUOUS FILMS; CRACK SPACING; CRITICAL SIZE; CU SUBSTRATE; CYCLE LIVES; CYCLING STABILITY; DE-LITHIATION; ELECTRODE MATERIAL; EXPERIMENTAL OBSERVATION; HIGH ENERGY DENSITIES; HIGH-CAPACITY ELECTRODES; LITHIATION; LITHIUM ION BATTERY; LOW COSTS; MECHANICAL DEGRADATION; NEGATIVE ELECTRODE; NEW APPROACHES; PATTERN DESIGNS; PATTERN SIZE; PATTERNING; PATTERNING APPROACHES; SHORT CYCLE; SI ELECTRODES; SI-BASED; SILICON ELECTRODE; SILICON THIN FILM; VOLUME VARIATION;

CRACKS; DEGRADATION; ELECTRODES; LITHIUM; LITHIUM ALLOYS; SILICON; THIN FILMS;

SEMICONDUCTING SILICON COMPOUNDS;

EID: 78049405664     PISSN: 03787753     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jpowsour.2010.08.058     Document Type: Article

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