CAJ | 학술논문

采用水热法通过添加Ce离子制备了MnO2纳米空心球电极材料。Ce离子对MnO2的形貌和结晶程度有很大的影响，添加Ce离子后生成由纳米棒组成的中空球，中空球比表面积(BET)达到315.2 m2·g?1。MnO2电极电化学测试结果表明：当铈锰摩尔比为0.2时电极材料具有较好的电化学性能，其比电容达到178.6 F·g?1，与未加Ce离子相比其比电容提高了2.6倍，而且经过1000次循环稳定性测试后比电容仍保留了90.5%。这些结果表明添加Ce离子有利于形成中空结构，并提高了MnO2电极的比电容。
채용수열법통과첨가Ce리자제비료MnO2납미공심구전겁재료。Ce리자대MnO2적형모화결정정도유흔대적영향，첨가Ce리자후생성유납미봉조성적중공구，중공구비표면적(BET)체도315.2 m2·g?1。MnO2전겁전화학측시결과표명：당시맹마이비위0.2시전겁재료구유교호적전화학성능，기비전용체도178.6 F·g?1，여미가Ce리자상비기비전용제고료2.6배，이차경과1000차순배은정성측시후비전용잉보류료90.5%。저사결과표명첨가Ce리자유리우형성중공결구，병제고료MnO2전겁적비전용。
Electrode material of MnO2 hollow nanosphere was synthesized via a simple hydrothermal process in the presence of Ce ion. Ce ion played a crucial role in controlling the morphology and crystalline structure of MnO2. The hollow nanosphere consisted of nanorods, and Brunauer-Emmet-Teller (BET) specific surface area of the hollow nanosphere was 315.2 m2·g?1. Electrochemical behavior of MnO2 electrode material was measured by cyclic voltammetry and galvanostatic charge-discharge. Better electrochemical properties of MnO2 electrode could be obtained when mole ratio of Ce to Mn was 0.2, and specific capacitance of as-prepared MnO2 electrode was 178.6 F·g?1, 2.6 times higher than MnO2 electrode without Ce ions. Moreover, MnO2 electrode exhibited remarkable cyclability, and specific capacitance retained 90.5%even after 1000 cycles. Ce ion was favorable for forming a hollow structure, and improved specific capacitance of MnO2 electrode.