无机化学学报
無機化學學報
무궤화학학보
JOURNAL OF INORGANIC CHEMISTRY
2011年
7期
1393-1398
,共6页
钒酸盐%水热法合成%电化学
釩痠鹽%水熱法閤成%電化學
범산염%수열법합성%전화학
vanadate%hydrothermal synthesis%electrochemistry
本文描述了在反应体系中不加入任何表面活性剂或模板的情况下,以水热法合成正交相的CoV2O6·2H2O纳米带;烧结反应得到其脱水盐,即单斜相CoV2O6.通过X射线粉末衍射法(XRD),场发射扫描电子显微镜(FE-SEM),透射电子显微镜(TEM)和X射线光电子能谱(XPS)等研究了这些产物的物相、形貌和化学组成等,并通过热重分析研究了CoV2O6·2H2O纳米带的热稳定性.此外,还观察了CoV2O6·2H2O纳米带的形成过程,认为其遵循一个经典的固-液-固的形成机制.最后,通过锂离子电池实验研究了CoV2O6· 2H2O纳米带及其脱水盐的电化学性质,发现其放电容量分别达到980和675 mAh·g-1.
本文描述瞭在反應體繫中不加入任何錶麵活性劑或模闆的情況下,以水熱法閤成正交相的CoV2O6·2H2O納米帶;燒結反應得到其脫水鹽,即單斜相CoV2O6.通過X射線粉末衍射法(XRD),場髮射掃描電子顯微鏡(FE-SEM),透射電子顯微鏡(TEM)和X射線光電子能譜(XPS)等研究瞭這些產物的物相、形貌和化學組成等,併通過熱重分析研究瞭CoV2O6·2H2O納米帶的熱穩定性.此外,還觀察瞭CoV2O6·2H2O納米帶的形成過程,認為其遵循一箇經典的固-液-固的形成機製.最後,通過鋰離子電池實驗研究瞭CoV2O6· 2H2O納米帶及其脫水鹽的電化學性質,髮現其放電容量分彆達到980和675 mAh·g-1.
본문묘술료재반응체계중불가입임하표면활성제혹모판적정황하,이수열법합성정교상적CoV2O6·2H2O납미대;소결반응득도기탈수염,즉단사상CoV2O6.통과X사선분말연사법(XRD),장발사소묘전자현미경(FE-SEM),투사전자현미경(TEM)화X사선광전자능보(XPS)등연구료저사산물적물상、형모화화학조성등,병통과열중분석연구료CoV2O6·2H2O납미대적열은정성.차외,환관찰료CoV2O6·2H2O납미대적형성과정,인위기준순일개경전적고-액-고적형성궤제.최후,통과리리자전지실험연구료CoV2O6· 2H2O납미대급기탈수염적전화학성질,발현기방전용량분별체도980화675 mAh·g-1.
Single-crystalline orthorhombic CoV2O6 ·2H2O nanobelts was large-scale prepared through a hydrothermal method without any templates or surfactants.The corresponding dehydrated salt of monoclinic CoV2O6 was prepared by the subsequent sintering treatment.The products were all collected and characterized by XRD,FESEM,TEM,SAED,HRTEM,XPS and Thermogravimetric analytical techniques.Thermogravimetric analysis indicates its thermal stability.The forming process was discussed,and we believe that the growth of nanobelts follows the typical solid-solution-solid process.Finally,the single-crystalline CoV2O6·2H2O nanobelts and its dehydrated salt demonstrat the first discharge of 980 mAh ·g-1 and 675 mAh ·g-1,respectively,upon electrochemical treatment in lithium ion battery.
