91九色蝌蚪_丁香六月狠狠综合天香_亚洲永久精品国产大片_国产b站免费版视频_老色鬼在线播放精品视频_天天看片97涩_小黄人福利导航_久久99精品国产麻豆婷婷_国产91精品精华液一区二区三区_91九色麻豆_综合亚洲欧美精品日韩?v_天天日天天日天天日天天日天天日天天日 _蜜月国产免费福利片_久久99国产精品片久久99蜜桃_国产精品无码专区在线观看_免费在线1区2区3区

搜索:  
Synthesis of Hierarchical Three-Dimensional Copper Oxide Nanostructures through a Biomineralization-Inspired Approach  
Synthesis of Hierarchical Three-Dimensional Copper Oxide Nanostructures through a Biomineralization-Inspired Approach
資料類型: PDF文件
關(guān)鍵詞: Silk  fibroin  
資料大小: 612k
所屬學(xué)科: 功能高分子
來源: 來源網(wǎng)絡(luò)
簡介:
Three-dimensional (3D) copper oxide (CuO) nanostructures were synthesized in a regenerated Bombyx mori silk fibroin aqueous solution at room temperature. In the synthesis process, silk fibroin served as the template and helped to form the hierarchical CuO nanostructures by self-assembly. Cu(OH)(2) nanowires were formed initially, and then they transformed into almond-like CuO nanostructures with branched edges and a compact middle. The size of the final CuO nanostructures can be tuned by varying the concentration of silk fibroin in the reaction system. A possible mechanism has been proposed based on various characterization techniques, such as scanning and transmission electron microscopy, X-ray diffraction, and thermogravimetric analysis. The synthesized CuO nanostructured material has been evaluated as an anode material for lithium ion batteries, and the result showed that they had a good electrochemical performance. The straightforward energy-saving method developed in this research may provide a useful preparation strategy for other functional inorganic materials through an environmentally friendly process.
上傳人: chenxin
上傳時(shí)間: 2016-07-26 10:59:21
下載次數(shù): 0
消耗積分: 0  
立即下載:
1人
1人
1人
友情提示:下載后對(duì)該資源進(jìn)行評(píng)論,即可獎(jiǎng)勵(lì)2分。
報(bào)告錯(cuò)誤:  1.下載無效  2. 資料明顯無價(jià)值  3. 資料重復(fù)存在

相關(guān)評(píng)論 共有0人發(fā)表評(píng)論 更多評(píng)論
你還沒有登錄,無法發(fā)表評(píng)論,請(qǐng)首先 登錄 注冊(cè)
免責(zé)聲明:本站部分資源由網(wǎng)友推薦,來自互聯(lián)網(wǎng),版權(quán)屬于原版權(quán)人,如果不慎侵犯到您的權(quán)利,敬請(qǐng)告知,我們會(huì)在第一時(shí)間撤除。本站中各網(wǎng)友的評(píng)論只代表其個(gè)人觀點(diǎn),不代表本站同意其觀點(diǎn)。