化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2009年
12期
2173-2179
,共7页
聚苯胺%纳米材料%硬模板%软模板%无模板
聚苯胺%納米材料%硬模闆%軟模闆%無模闆
취분알%납미재료%경모판%연모판%무모판
polyaniline%nanomaterials%hard-template%soft-template%templateless
导电高分子纳米材料不仅具有一定的导电性能,而且兼具纳米材料的特殊性能,因而在很多领域具有广泛的应用前景.本文将导电高分子纳米材料的制备方法分为模板法和无模板法两大类进行探讨,模板法又分为硬模板和软模板法,主要以聚苯胺的制备进行举例,对每种方法的优缺点进行了分析,并对导电高分子纳米材料的未来发展进行了展望.
導電高分子納米材料不僅具有一定的導電性能,而且兼具納米材料的特殊性能,因而在很多領域具有廣汎的應用前景.本文將導電高分子納米材料的製備方法分為模闆法和無模闆法兩大類進行探討,模闆法又分為硬模闆和軟模闆法,主要以聚苯胺的製備進行舉例,對每種方法的優缺點進行瞭分析,併對導電高分子納米材料的未來髮展進行瞭展望.
도전고분자납미재료불부구유일정적도전성능,이차겸구납미재료적특수성능,인이재흔다영역구유엄범적응용전경.본문장도전고분자납미재료적제비방법분위모판법화무모판법량대류진행탐토,모판법우분위경모판화연모판법,주요이취분알적제비진행거례,대매충방법적우결점진행료분석,병대도전고분자납미재료적미래발전진행료전망.
Conducting polymer nanomaterials not only have high conductivity, but also have special properties of nanomaterials. Therefore, these materials have application prospect in many fields. In this paper, the synthetic methods of conducting polymer nanomaterials including template method and templateless method are discussed. The template method could be divided into hard and soft template methods. The advantages and disadvantages of each method are analyzed through taking the preparation of polyaniline as examples mainly. The development prospect of such conductive polymer nanomaterials is also presented.