矿冶工程
礦冶工程
광야공정
2001年
1期
43-45
,共3页
氢氧化镍%添加剂%电位性能%微电极%循环伏安法
氫氧化鎳%添加劑%電位性能%微電極%循環伏安法
경양화얼%첨가제%전위성능%미전겁%순배복안법
通过对添加Co、Co+Zn、Co+Cd及不含添加剂的氢氧化镍样品进行粉末微电极循环伏安测试,研究了氢氧化镍的电位性能,并对这些样品进行物理形态结构测试,探索了添加剂对氢氧化镍物理形态结构及电位性能的影响。结果表明:在制备氢氧化镍时加入添加剂,氢氧化镍的颗粒小,BET比表面大,组成颗粒微晶小,微晶间孔隙丰富,XRD图谱中(001)晶面和(101)晶面衍射峰的半高宽(FWHM)值和d001值较大,结合水含量增多,这些结构上的变化有利于氢氧化镍充放电过程中质子扩散,从而改善其电位性能;单纯添加Co对改善氢氧化镍的充电电位性能效果较好,而同时加Co、Zn或Co、Cd可显著改善氢氧化镍的充放电电位性能。
通過對添加Co、Co+Zn、Co+Cd及不含添加劑的氫氧化鎳樣品進行粉末微電極循環伏安測試,研究瞭氫氧化鎳的電位性能,併對這些樣品進行物理形態結構測試,探索瞭添加劑對氫氧化鎳物理形態結構及電位性能的影響。結果錶明:在製備氫氧化鎳時加入添加劑,氫氧化鎳的顆粒小,BET比錶麵大,組成顆粒微晶小,微晶間孔隙豐富,XRD圖譜中(001)晶麵和(101)晶麵衍射峰的半高寬(FWHM)值和d001值較大,結閤水含量增多,這些結構上的變化有利于氫氧化鎳充放電過程中質子擴散,從而改善其電位性能;單純添加Co對改善氫氧化鎳的充電電位性能效果較好,而同時加Co、Zn或Co、Cd可顯著改善氫氧化鎳的充放電電位性能。
통과대첨가Co、Co+Zn、Co+Cd급불함첨가제적경양화얼양품진행분말미전겁순배복안측시,연구료경양화얼적전위성능,병대저사양품진행물리형태결구측시,탐색료첨가제대경양화얼물리형태결구급전위성능적영향。결과표명:재제비경양화얼시가입첨가제,경양화얼적과립소,BET비표면대,조성과립미정소,미정간공극봉부,XRD도보중(001)정면화(101)정면연사봉적반고관(FWHM)치화d001치교대,결합수함량증다,저사결구상적변화유리우경양화얼충방전과정중질자확산,종이개선기전위성능;단순첨가Co대개선경양화얼적충전전위성능효과교호,이동시가Co、Zn혹Co、Cd가현저개선경양화얼적충방전전위성능。
The potential performance of nickel hydroxides with and without additives of cobalt, zinc, cadmium was investigated by using powder microelectrode voltammetry and the physical structural properties of these samples were determined by SEM, XRD, TGA, BET, to explore the relationship of dopants with structure and potential performance. The results demonstrate that addition of the additives to nickel hydroxide during its preparation can results in its smaller particle size, larger BET specific surface, finer micro-crystal grains, wider FWHM of (001) and (101) face, and larger interplaner space of (001) face. These changes in structure are beneficial to the diffusion of proton during charge and discharge of nickel hydroxide, improving the potential performance. Nickel hydroxide with only cobalt has better charge potential performance. Simultaneous addition of cobalt and zinc or cobalt and cadmium results in a great improvement in charge and discharge potential performance.
