应用化工
應用化工
응용화공
APPLIED CHEMICAL INDUSTRY
2014年
12期
2135-2136,2143
,共3页
李永生%韩腾%谢光勇%张爱清
李永生%韓騰%謝光勇%張愛清
리영생%한등%사광용%장애청
氯化亚铜%纳米粒子%溶剂热法
氯化亞銅%納米粒子%溶劑熱法
록화아동%납미입자%용제열법
cuprous chloride%nanoparticle%solvothermal method
以氯化铜为铜源,甲醇、乙醇、异丙醇等为溶剂和还原剂,采用溶剂热法制备纳米氯化亚铜,探讨了温度、时间、还原剂等条件对所得氯化亚铜的形貌、粒径大小、物相组成的影响。结果表明,以乙醇、异丙醇为溶剂,在120~180℃反应24~48 h,CuCl纳米颗粒可在2~50 nm范围内有效调控。
以氯化銅為銅源,甲醇、乙醇、異丙醇等為溶劑和還原劑,採用溶劑熱法製備納米氯化亞銅,探討瞭溫度、時間、還原劑等條件對所得氯化亞銅的形貌、粒徑大小、物相組成的影響。結果錶明,以乙醇、異丙醇為溶劑,在120~180℃反應24~48 h,CuCl納米顆粒可在2~50 nm範圍內有效調控。
이록화동위동원,갑순、을순、이병순등위용제화환원제,채용용제열법제비납미록화아동,탐토료온도、시간、환원제등조건대소득록화아동적형모、립경대소、물상조성적영향。결과표명,이을순、이병순위용제,재120~180℃반응24~48 h,CuCl납미과립가재2~50 nm범위내유효조공。
A solvothermal method has been developed to prepare cuprous chloride nanoparticles by reduc-ing copper chloride with methanol,ethanol and isopropanol as reducing agents and solvents,and the influ-ences of different reaction conditions such as temperatures,time and reducing agents upon the morpholo-gy,particle size and phase composition of the cuprous chloride were studied. The result showed that with ethanol and isopropanol as solvent,react 24~48 h at 120~180℃. The size of CuCl nanoparticles can be controlled in the range of 2~50 nm effectively.