摘要
为了合成纳米银胶并考察其在制备导电银膜方面的应用性能,在聚乙烯吡咯烷酮(PVP)保护下,利用抗坏血酸(Vc)还原柠檬酸银纳米乳液,合成了纳米银胶,并将其用迈耶棒涂布在支持体上制备了纳米导电银膜。考察了不同Vc用量对合成纳米银胶反应程度,以及水浸泡与加热烧结两种后处理手段对银膜表面电阻的影响。XRD分析结果表明,Vc过量1倍反应进行彻底,产物纯净、无副产物;TEM与UV-Vis测试表明,合成的纳米银胶粒径分布在10~50nm,无明显团聚现象;通过对水浸泡前后银膜进行FTIR测试表明,副产物溶解使纳米银膜更加致密的排列,降低了其表面电阻;DSC、TG结果表明,纳米银的低熔点特性与有机物的分解,使得纳米银膜的表面电阻在烧结过程中大幅降低。
To investigate the applications of nano-silver colloid in conductive silver film, the nano-silver colloid was synthesized using ascorbic acid (Vc) reduce silver citrate nano-emulsion in the presence of polyvinylpyrrolidone (PVP) as a protected agent. Then the nano-silver colloid was coated onto the substrate to form a conductive silver film by Mayer rod. The influence of amount of Vc on the degree of the reaction and the effect of two kinds of post-processings, water dipping and Sintering processing, on the surface resistance were discussed. The XRD results showed that the reaction was completed when Vc excessive double; The TEM and UV-Vis study indicated that the distribution of silver colloid particles was from 10~50nm and without any particles aggregation. The FTIR results of pre-water dipping and post-water dipping showed that the densification of the silver film by dissolving away by-products decreased the surface resistance. DSC and TG showed the low melting temperature characteristic of nano-silver and decomposition of organic compounds made the surface resistance of silver film sharply decrease in the sintering process.
出处
《功能材料》
EI
CAS
CSCD
北大核心
2007年第A02期901-903,共3页
Journal of Functional Materials
基金
北京市自然科学基金资助项目(KZ200610015008)
北京市教育委员会科技发展计划重点资助项目(KZ200610015008)
北京印刷学院人才引进启动基金资助项目(E-d-05-11)
北京市委组织部资助项目(20071D0500400147).
关键词
纳米银胶
纳米导电银膜
柠檬酸银
烧结
nano-silver colloid
conductive nano-silver film
silver citrate
sintering
