材料导报
材料導報
재료도보
MATERIALS REVIEW
2009年
20期
93-97
,共5页
陈明伟%吕春雷%印仁和%王卫江%郁祖湛
陳明偉%呂春雷%印仁和%王衛江%鬱祖湛
진명위%려춘뢰%인인화%왕위강%욱조담
导电墨水%纳米铜%电渗析%减压蒸馏%表面活性剂
導電墨水%納米銅%電滲析%減壓蒸餾%錶麵活性劑
도전묵수%납미동%전삼석%감압증류%표면활성제
conductive ink%copper nanoparticles%electrodialysis%vacuum distillation%surface-active agents
以次磷酸钠为还原剂、硫酸铜为前驱体,并添加Lomar D、PVP等表面活性剂及分散剂,在一缩二乙二醇(DEG)有机液相溶液中采用化学还原法成功地制备了在室温下能稳定60天的纳米铜导电墨水,通过电渗析除去墨水中的杂质离子,再采用减压蒸馏的方法可使纳米铜在墨水中的质量分数达到5%~30%,其中电渗析的除杂效率在99%以上.以XRD、TEM、EDX、ICP、HORIBALB550粒度分布仪对墨水进行表征,结果显示,墨水中纳米铜的粒径为15~40nm,分布较窄.设计正交试验分析了影响墨水中铜晶粒大小的一些因素发现,还原剂与前驱体的物质的量比、反应温度、pH值以及分散剂与表面活性剂的物质的量比等都对铜晶粒的生长有很大影响.
以次燐痠鈉為還原劑、硫痠銅為前驅體,併添加Lomar D、PVP等錶麵活性劑及分散劑,在一縮二乙二醇(DEG)有機液相溶液中採用化學還原法成功地製備瞭在室溫下能穩定60天的納米銅導電墨水,通過電滲析除去墨水中的雜質離子,再採用減壓蒸餾的方法可使納米銅在墨水中的質量分數達到5%~30%,其中電滲析的除雜效率在99%以上.以XRD、TEM、EDX、ICP、HORIBALB550粒度分佈儀對墨水進行錶徵,結果顯示,墨水中納米銅的粒徑為15~40nm,分佈較窄.設計正交試驗分析瞭影響墨水中銅晶粒大小的一些因素髮現,還原劑與前驅體的物質的量比、反應溫度、pH值以及分散劑與錶麵活性劑的物質的量比等都對銅晶粒的生長有很大影響.
이차린산납위환원제、류산동위전구체,병첨가Lomar D、PVP등표면활성제급분산제,재일축이을이순(DEG)유궤액상용액중채용화학환원법성공지제비료재실온하능은정60천적납미동도전묵수,통과전삼석제거묵수중적잡질리자,재채용감압증류적방법가사납미동재묵수중적질량분수체도5%~30%,기중전삼석적제잡효솔재99%이상.이XRD、TEM、EDX、ICP、HORIBALB550립도분포의대묵수진행표정,결과현시,묵수중납미동적립경위15~40nm,분포교착.설계정교시험분석료영향묵수중동정립대소적일사인소발현,환원제여전구체적물질적량비、반응온도、pH치이급분산제여표면활성제적물질적량비등도대동정립적생장유흔대영향.
Using NaH_2PO_2·H_2O as reductant, CuSO_4·5H_2O as precursor and adding surface-active agents and dispersing agents,such as Lomar D,PVP, nanoparticles copper conductive ink has been successfully prepared by chemical reduction and the ink in organisms(DEG) can be stable at ambient air for 60 days. And impurities in the plasma has been removed through electrodialysis and then using the method of the vacuum distillation nanocopper content (the ratio of quality) in conductive ink reaches 5%~30%, of which the electrodialysis impurity removal reaches more than 99% . After XRD, TEM, EDX,ICP and LB550 size distribution instrument are conducted to characterize the structure of the prepared nanoparticles copper conductive ink, the results show that the size of nanoparticles copper is distributed in the range of 15~40nm in diameter and the nanoparticles are spherical geometry. Orthogonal expreriment is done to analyse the factors that have an impact on the size of the copper grains in the ink and find that reducing agents and precursors of the molar ratio, temperature, pH value, decentralized agents and surfactants molar ratio of copper grains have great impact on growth.