电镀与涂饰
電鍍與塗飾
전도여도식
ELECTROPLATING & FINISHING
2014年
6期
264-266
,共3页
包保山%李生娟%陈洪亮%王树林
包保山%李生娟%陳洪亮%王樹林
포보산%리생연%진홍량%왕수림
氧化锌%纳米颗粒%超声化学%滚压振动磨%薄膜%导通电压
氧化鋅%納米顆粒%超聲化學%滾壓振動磨%薄膜%導通電壓
양화자%납미과립%초성화학%곤압진동마%박막%도통전압
zinc oxide%nanoparticle%ultrasonic chemistry%rolling vibration mill%thin film%break-over voltage
以商业锌粉为原料,采用超声化学法制备ZnO纳米颗粒薄膜,主要步骤为:滚压振动研磨锌粉;超声分散制备ZnO分散液;分别以聚乙烯醇、硅溶胶为成膜助剂和粘结剂,制备纳米ZnO薄膜。对比研究了60°C和90°C下所得纳米ZnO薄膜的结构、表面形貌和电学性能。结果表明,所得氧化锌为六角纤锌矿结构,无杂质存在。60°C干燥所得ZnO薄膜表面较90°C干燥所得薄膜更为细致、均匀。60°C和90°C干燥所得薄膜的导通电压分别为1.2 V和4.0 V。
以商業鋅粉為原料,採用超聲化學法製備ZnO納米顆粒薄膜,主要步驟為:滾壓振動研磨鋅粉;超聲分散製備ZnO分散液;分彆以聚乙烯醇、硅溶膠為成膜助劑和粘結劑,製備納米ZnO薄膜。對比研究瞭60°C和90°C下所得納米ZnO薄膜的結構、錶麵形貌和電學性能。結果錶明,所得氧化鋅為六角纖鋅礦結構,無雜質存在。60°C榦燥所得ZnO薄膜錶麵較90°C榦燥所得薄膜更為細緻、均勻。60°C和90°C榦燥所得薄膜的導通電壓分彆為1.2 V和4.0 V。
이상업자분위원료,채용초성화학법제비ZnO납미과립박막,주요보취위:곤압진동연마자분;초성분산제비ZnO분산액;분별이취을희순、규용효위성막조제화점결제,제비납미ZnO박막。대비연구료60°C화90°C하소득납미ZnO박막적결구、표면형모화전학성능。결과표명,소득양화자위륙각섬자광결구,무잡질존재。60°C간조소득ZnO박막표면교90°C간조소득박막경위세치、균균。60°C화90°C간조소득박막적도통전압분별위1.2 V화4.0 V。
ZnO nanoparticle film was prepared by sonochemical method using commercial zinc powder as raw material. The main processes are as follows: grinding zinc powder by rolling vibration mill; preparing ZnO dispersion liquid by ultrasonic method; preparing nano-ZnO thin film using polyvinyl alcohol and silica sol as the film-forming auxiliary agent and binder respectively. The structure, surface morphology, and electrical properties of the nano ZnO thin films obtained by drying at 60 °C and 90 °C were comparatively studied. The results show that the obtained zinc oxide is hexagonal wurtzite-structured and impurity-free. The surface of ZnO thin film obtained at 60 °C is more compact and uniform than that obtained at 90 °C. The break-over voltages of the ZnO thin films obtained at 60 °C and 90 °C are 1.2 V and 4.0 V, respectively.
