功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
18期
2650-2653
,共4页
何功明%叶金文%刘颖%苟军军
何功明%葉金文%劉穎%茍軍軍
하공명%협금문%류영%구군군
溶液还原%碲化镉%纳米颗粒%水合肼%氢处理
溶液還原%碲化鎘%納米顆粒%水閤肼%氫處理
용액환원%제화력%납미과립%수합정%경처리
solution reduction%cadmium telluride%nanoparticles%hydrazine hydrate%hydrogen treatment
以氯化镉和二氧化碲为原料,水合肼为还原剂和络合剂,原位制备出了纳米级混合均匀的前驱体粉末,在110~400℃氢气还原制备了碲化镉粉末,并结合X射线衍射(XRD)、热重分析(TG)、扫描电子显微镜(SEM)等分析手段研究了上述过程中物相和微观结构演变。结果表明,制备前驱体过程中四价碲被水合肼还原成纳米级的碲单质,同时镉离子以2~5μm Cd(N2 H4)x Cl2配合物的形式沉淀析出,且单质碲和Cd(N2 H4)x Cl2均匀分散;当氯化镉和二氧化碲按摩尔比1∶1进行混合时得到的前驱体经400℃氢处理后,可获得单一相组成的碲化镉粉末。
以氯化鎘和二氧化碲為原料,水閤肼為還原劑和絡閤劑,原位製備齣瞭納米級混閤均勻的前驅體粉末,在110~400℃氫氣還原製備瞭碲化鎘粉末,併結閤X射線衍射(XRD)、熱重分析(TG)、掃描電子顯微鏡(SEM)等分析手段研究瞭上述過程中物相和微觀結構縯變。結果錶明,製備前驅體過程中四價碲被水閤肼還原成納米級的碲單質,同時鎘離子以2~5μm Cd(N2 H4)x Cl2配閤物的形式沉澱析齣,且單質碲和Cd(N2 H4)x Cl2均勻分散;噹氯化鎘和二氧化碲按摩爾比1∶1進行混閤時得到的前驅體經400℃氫處理後,可穫得單一相組成的碲化鎘粉末。
이록화력화이양화제위원료,수합정위환원제화락합제,원위제비출료납미급혼합균균적전구체분말,재110~400℃경기환원제비료제화력분말,병결합X사선연사(XRD)、열중분석(TG)、소묘전자현미경(SEM)등분석수단연구료상술과정중물상화미관결구연변。결과표명,제비전구체과정중사개제피수합정환원성납미급적제단질,동시력리자이2~5μm Cd(N2 H4)x Cl2배합물적형식침정석출,차단질제화Cd(N2 H4)x Cl2균균분산;당록화력화이양화제안마이비1∶1진행혼합시득도적전구체경400℃경처리후,가획득단일상조성적제화력분말。
The uniformly mixing precursor powders at nanoscale size was prepared by in-situ reaction which used cadmium chloride and tellurium dioxide as raw materials,and hydrazine hydrate as a reducing agent and a com-plexing agent.The cadmium telluride was obtained by hydrogen reduction of precursor powders during 110-400℃.Moreover,the evolution of phases and microstructures were investigated by XRD,TG,SEM etc.The results show that during the preparation of precursor the tetravalent tellurium was changed to elemental telluri-um at nanoscale size,while the ions of cadmium precipitated in the form of 2-5μm Cd(N2 H4 )x Cl2 complexes. Furthermore,the elemental tellurium and Cd(N2 H4 )x Cl2 dispersed uniformly.The single phase cadmium tellu-ride can be obtained from the precursor treated by hydrogen at 400℃ and the precursor was prepared with cad-mium chloride and tellurium dioxide mixed with a molar ratio 1∶1 .