化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2012年
10期
2252-2259
,共8页
乔正阳%刘非拉%肖鹏%乔雷%杨艳南%房红琳%张云怀
喬正暘%劉非拉%肖鵬%喬雷%楊豔南%房紅琳%張雲懷
교정양%류비랍%초붕%교뢰%양염남%방홍림%장운부
贵金属%一维纳米材料%控制合成
貴金屬%一維納米材料%控製閤成
귀금속%일유납미재료%공제합성
noble metallic%one-dimensional nanomaterials%controllable synthesis
一维纳米材料具有优良的尺寸效应,一维贵金属材料表现出不同于相应块体材料的特殊物理化学性能。本文以一维贵金属纳米结构的合成方法和机理为探讨重点,总结了近年来国内外用于控制合成一维贵金属纳米材料的主要方法,包括模板法、多元醇还原法、化学电沉积法以及金属催化还原法。着重以金属银、钯为例,介绍了其形状可控的一维纳米结构的生长机理,并以金、银等一维纳米材料为例介绍了其一维纳米结构在功能材料以及生物医学等领域的应用前景。指出建立一维金属纳米结构制备科学的新理论、新方法及其成核生长动力学模型是进一步研究的方向。
一維納米材料具有優良的呎吋效應,一維貴金屬材料錶現齣不同于相應塊體材料的特殊物理化學性能。本文以一維貴金屬納米結構的閤成方法和機理為探討重點,總結瞭近年來國內外用于控製閤成一維貴金屬納米材料的主要方法,包括模闆法、多元醇還原法、化學電沉積法以及金屬催化還原法。著重以金屬銀、鈀為例,介紹瞭其形狀可控的一維納米結構的生長機理,併以金、銀等一維納米材料為例介紹瞭其一維納米結構在功能材料以及生物醫學等領域的應用前景。指齣建立一維金屬納米結構製備科學的新理論、新方法及其成覈生長動力學模型是進一步研究的方嚮。
일유납미재료구유우량적척촌효응,일유귀금속재료표현출불동우상응괴체재료적특수물이화학성능。본문이일유귀금속납미결구적합성방법화궤리위탐토중점,총결료근년래국내외용우공제합성일유귀금속납미재료적주요방법,포괄모판법、다원순환원법、화학전침적법이급금속최화환원법。착중이금속은、파위례,개소료기형상가공적일유납미결구적생장궤리,병이금、은등일유납미재료위례개소료기일유납미결구재공능재료이급생물의학등영역적응용전경。지출건립일유금속납미결구제비과학적신이론、신방법급기성핵생장동역학모형시진일보연구적방향。
One-dimensional nanomaterials possess excellent size effect.One-dimensional noble metallic materials display special physical and chemical properties different from corresponding block materials.In this paper,the main methods for the synthesis of controllable one-dimensional noble metallic nanomaterials in recent years were summarized,including template method,polyhydric alcohol revert method,chemical electricity deposited method,metal catalyzed reduction method,and the synthesis methods and mechanisms of one-dimensional noble metallic structures were focused on.With the emphasis on noble metals,such as silver and palladium,the mechanisms for the growth of controllable one-dimensional structures in shape were discussed,and the potential applications of gold and silver one-dimensional nanomaterials in the field of functional materials and biomedicine were also introduced.It is indicated that establishing new theories and methods for the preparation of one-dimensional metallic nano structures in preparation science,together with the model for the nucleation and growth kinetics shall be the focus in further research.