末成年女AV片一区二区,国产精品中文字幕日韩,国产成人无码久久久精品一

阿美特克科學儀器部-普林...

立即詢價

您提交后，專屬客服將第一時間為您服務

A transmission electron microscopy study of crack formation and propagation in electrochemically cyc

閱讀：3611 發(fā)布時間：2014-09-02

Subsurface defects and local compositional changes that occurred in graphite anodes subjected to cyclic

voltammetry tests (vs. Li/Li+, using an electrolyte consisting of 1 M LiClO4 in a 1:1 volumetric mixture

of ethylene carbonate and 1,2-dimethoxy ethane) were investigated using high-resolution transmission

electron microscopy (HR-TEM). Cross-sections of anodes prepared by focused ion beam (FIB) milling

indicated that graphite layers adjacent to solid electrolyte (SEI)/graphite interface exhibited partial

delamination due to the formation of interlayer cracks. The SEI layer formed on the graphite surface consisted

of Li2CO3 that was identified by

{1 1 0}

and

{0 0 2}

crystallographic planes. Lithium compounds,

LiC6, Li2CO3 and Li2O, were observed on the surfaces of separated graphite layers. Deposition of these cointercalation

compounds near the crack tip caused partial closure of propagating graphite cracks during

electrochemical cycling, and possibly reduced the crack growth rate. Graphite fibres that were observed

to bridge crack faces likely provided an additional mechanism for the retardation of crack propagation.