电源技术
電源技術
전원기술
CHINESE JOURNAL OF POWER SOURCES
2001年
2期
65-68,90
,共5页
郭炳焜%杨子运%李新海%徐徽%刘丽英
郭炳焜%楊子運%李新海%徐徽%劉麗英
곽병혼%양자운%리신해%서휘%류려영
化学合成%改性MnO2%微电极%可充性
化學閤成%改性MnO2%微電極%可充性
화학합성%개성MnO2%미전겁%가충성
制备可充锌锰电池的关键技术之一是提高MnO2的可逆性。采用化学沉淀氧化法制备改性MnO2。研究了锰盐、掺杂物质、氧化剂、温度等对MnO2可逆性的影响。采用模拟电池及微电极技术研究MnO2的充放电性能,结合XRD、SEM检测改性MnO2的晶形和形貌。实验结果表明,当以Bi(NO3)3为掺杂物质时,制备改性MnO2的优化工艺条件是:n(Mn)/n(Bi)(摩尔比)为6~10,氧化剂用NaClO,锰盐可用Mn(NO3)2或MnSO4,25 ℃,反应时间10~15 h。所得改性MnO2呈疏松微晶粒状,是以β-MnOOH为主的β-MnOOH与β-BiOOH的混合晶相。该样品经第10次循环充放电后,其放电容量为初始放电容量的121%,10次累积放电容量是电解MnO2(EMD)的3倍。表明掺Bi3+对改善MnO2的可逆性和提高放电容量有重要作用。
製備可充鋅錳電池的關鍵技術之一是提高MnO2的可逆性。採用化學沉澱氧化法製備改性MnO2。研究瞭錳鹽、摻雜物質、氧化劑、溫度等對MnO2可逆性的影響。採用模擬電池及微電極技術研究MnO2的充放電性能,結閤XRD、SEM檢測改性MnO2的晶形和形貌。實驗結果錶明,噹以Bi(NO3)3為摻雜物質時,製備改性MnO2的優化工藝條件是:n(Mn)/n(Bi)(摩爾比)為6~10,氧化劑用NaClO,錳鹽可用Mn(NO3)2或MnSO4,25 ℃,反應時間10~15 h。所得改性MnO2呈疏鬆微晶粒狀,是以β-MnOOH為主的β-MnOOH與β-BiOOH的混閤晶相。該樣品經第10次循環充放電後,其放電容量為初始放電容量的121%,10次纍積放電容量是電解MnO2(EMD)的3倍。錶明摻Bi3+對改善MnO2的可逆性和提高放電容量有重要作用。
제비가충자맹전지적관건기술지일시제고MnO2적가역성。채용화학침정양화법제비개성MnO2。연구료맹염、참잡물질、양화제、온도등대MnO2가역성적영향。채용모의전지급미전겁기술연구MnO2적충방전성능,결합XRD、SEM검측개성MnO2적정형화형모。실험결과표명,당이Bi(NO3)3위참잡물질시,제비개성MnO2적우화공예조건시:n(Mn)/n(Bi)(마이비)위6~10,양화제용NaClO,맹염가용Mn(NO3)2혹MnSO4,25 ℃,반응시간10~15 h。소득개성MnO2정소송미정립상,시이β-MnOOH위주적β-MnOOH여β-BiOOH적혼합정상。해양품경제10차순배충방전후,기방전용량위초시방전용량적121%,10차루적방전용량시전해MnO2(EMD)적3배。표명참Bi3+대개선MnO2적가역성화제고방전용량유중요작용。
Enhancing the invertibility of MnO2 was one of key technologies of preparing chargeable Zn-MnO2 battery. Chemical deposition oxidation was adopted to prepare modified MnO2 and manganic compounds, adulterants, oxidants, humidity effected to invertibility of MnO2 were studied. Charge and discharge capability of MnO2 was studied by adopting simulation cell and microelectrode. Crystal and shape of modified MnO2 were detected by XRD and SEM. The results show that the optimal technological conditions for preparing modified MnO2 by using Bi(NO3)3 as adulterant is as following: mole ratio of n(Mn)/n(Bi) is 6~10, oxidant is NaClO, manganic compound is Mn(NO3)3 or MnSO4, temperature is 25 ℃, reaction time is 10~15 h. The modified MnO2 is loosen micro-crystal powder, which is mixture of β-MnOOH with a little β-BiOOH. The powders discharge capability is 121% of initial discharge capability after the tenth charge and discharge cycle. The cumulate discharge capability of the tenth charge and discharge cycle is triple electrolyze MnO2 (EMD). These show that it is important addition Bi3+ to improve invertibility and to enhance discharge capability of MnO2.
