电源技术
電源技術
전원기술
CHINESE JOURNAL OF POWER SOURCES
2014年
12期
2300-2302,2342
,共4页
NiO%超级电容器%空心球结构
NiO%超級電容器%空心毬結構
NiO%초급전용기%공심구결구
nickel oxide%supercapacitance%hol ow spheres structure
以Ni(NO3)2·6 H2O和NaOH为原料,柠檬酸(CA)为模板利用水热法制备了前驱体,然后烧结制得了球形NiO材料,在生成空心球结构的过程中柠檬酸起到了重要的作用。CA与Ni(NO3)2的摩尔比为1∶3时得到的NiO,X射线衍射(XRD)分析及扫描电子显微镜(SEM)形貌观察表明该材料主要呈现弱结晶态结构,空心球体结构表面为纳米片交错成空间网络。BET测试表明该材料的比表面积为236 m2/g,孔径分布约4 nm,且疏松,具有良好的OH-离子传递特性。循环伏安和恒流充放电测试表明,该材料有高的电化学活性,在5 mA/cm2电流密度下,氧化物比电容达457 F/g。
以Ni(NO3)2·6 H2O和NaOH為原料,檸檬痠(CA)為模闆利用水熱法製備瞭前驅體,然後燒結製得瞭毬形NiO材料,在生成空心毬結構的過程中檸檬痠起到瞭重要的作用。CA與Ni(NO3)2的摩爾比為1∶3時得到的NiO,X射線衍射(XRD)分析及掃描電子顯微鏡(SEM)形貌觀察錶明該材料主要呈現弱結晶態結構,空心毬體結構錶麵為納米片交錯成空間網絡。BET測試錶明該材料的比錶麵積為236 m2/g,孔徑分佈約4 nm,且疏鬆,具有良好的OH-離子傳遞特性。循環伏安和恆流充放電測試錶明,該材料有高的電化學活性,在5 mA/cm2電流密度下,氧化物比電容達457 F/g。
이Ni(NO3)2·6 H2O화NaOH위원료,저몽산(CA)위모판이용수열법제비료전구체,연후소결제득료구형NiO재료,재생성공심구결구적과정중저몽산기도료중요적작용。CA여Ni(NO3)2적마이비위1∶3시득도적NiO,X사선연사(XRD)분석급소묘전자현미경(SEM)형모관찰표명해재료주요정현약결정태결구,공심구체결구표면위납미편교착성공간망락。BET측시표명해재료적비표면적위236 m2/g,공경분포약4 nm,차소송,구유량호적OH-리자전체특성。순배복안화항류충방전측시표명,해재료유고적전화학활성,재5 mA/cm2전류밀도하,양화물비전용체457 F/g。
Nickel oxide (NiO) hol ow spheres were successful prepared through hydrothermal method assisted with citric acid (CA). Characterization was carried out by using X-ray diffraction (XRD), BET and scanning electron microscopy (SEM). It revealed that CA played a key role in process of forming hol ow sphere structures. Results show that this material is weakly crystal ized, inter connected nanflakes network structure and has an arrow mesoporous distribution at about 4 nm. Electrochemical properties of NiO hol ow spheres were examined by cyclic voltammetry, galvanostatic charge-discharge. The results show that NiO calcined at 300℃ has a higher specific capacitance approximately up to 457 F/g at current density of 5 mA/cm2.