黑龙江科技学院学报
黑龍江科技學院學報
흑룡강과기학원학보
JOURNAL OF HEILONGJIANG INSTITUTE OF SCIENCE & TECHNOLOGY
2012年
6期
567-570,584
,共5页
电化学方法%氧化锌%纳米粉体
電化學方法%氧化鋅%納米粉體
전화학방법%양화자%납미분체
electrochemical method%zinc oxide%ultra-fine powder
针对传统的超细氧化锌粉体制备过程存在设备要求严格、操作条件复杂和需外加分散剂等问题,采用以阳离子交换膜为隔膜的两室电化学沉淀法,控制阴极电流密度在50~150 A/m^2,阴极产生的OH-与通过阳离子交换膜迁移进入阴极室的Zn^2+相结合得到氢氧化锌沉淀。该沉淀物经过350℃焙烧2 h后得到氧化锌粉体。由TEM和XRD分析可知:氧化锌粉体颗粒随着阴极电流密度增加而逐渐降低,当阴极电流密度达到150 A/m^2时,获得的氧化锌粉体粒度为50~80 nm,为六方晶系结构。实验研究表明:该两室电化学沉淀法具有操作条件简单、设备要求不高、不需外加化学分散剂等优点,是制备超细氧化锌粉体的有效方法。
針對傳統的超細氧化鋅粉體製備過程存在設備要求嚴格、操作條件複雜和需外加分散劑等問題,採用以暘離子交換膜為隔膜的兩室電化學沉澱法,控製陰極電流密度在50~150 A/m^2,陰極產生的OH-與通過暘離子交換膜遷移進入陰極室的Zn^2+相結閤得到氫氧化鋅沉澱。該沉澱物經過350℃焙燒2 h後得到氧化鋅粉體。由TEM和XRD分析可知:氧化鋅粉體顆粒隨著陰極電流密度增加而逐漸降低,噹陰極電流密度達到150 A/m^2時,穫得的氧化鋅粉體粒度為50~80 nm,為六方晶繫結構。實驗研究錶明:該兩室電化學沉澱法具有操作條件簡單、設備要求不高、不需外加化學分散劑等優點,是製備超細氧化鋅粉體的有效方法。
침대전통적초세양화자분체제비과정존재설비요구엄격、조작조건복잡화수외가분산제등문제,채용이양리자교환막위격막적량실전화학침정법,공제음겁전류밀도재50~150 A/m^2,음겁산생적OH-여통과양리자교환막천이진입음겁실적Zn^2+상결합득도경양화자침정。해침정물경과350℃배소2 h후득도양화자분체。유TEM화XRD분석가지:양화자분체과립수착음겁전류밀도증가이축점강저,당음겁전류밀도체도150 A/m^2시,획득적양화자분체립도위50~80 nm,위륙방정계결구。실험연구표명:해량실전화학침정법구유조작조건간단、설비요구불고、불수외가화학분산제등우점,시제비초세양화자분체적유효방법。
Aimed at addressing the disadvantages occurring in the conventional preparation of ultrafine zinc oxide powder,such as sophisticated equipment,complex operating conditions and additional dispersing agents,this paper introduces how to obtain zinc hydroxide precipitation in cathode chamber of two-chamber electrobath divided by cation-exchange membrane,by controlling the current densities at 50~150 A/m2 on cathode,and combining hydroxyl ion generated by electrolyzing sodium chloride solution in cathode chamber with zinc ion migrating into anode chamber.Ultra-fine particles of zinc oxide are prepared by calcining precipitate for two hours at the temperature of 350 ℃.The TEM and XRD analysis shows that the zinc oxide powder exhibits a gradually reducing size due to an increasing electrolyzing density on cathode.Zinc oxide nanoparticles obtained with electrolyzing density of 150 A/m2 have the diameter of 50~80 nm and zinc oxide shows a hexagonal crystal system.The experiment results show that the two-chamber electrochemical precipitation,boasting advantages,such as an easier operating condition,less sophisticated equipment,and freedom from chemical dispersants,works as a more effective method designed for preparing ultrafine zinc oxide powder.