强激光与粒子束
彊激光與粒子束
강격광여입자속
HIGH POWER LASER AND PARTICLEBEAMS
2010年
1期
58-62
,共5页
杜凯%张素银%周兰%方瑜%张林%唐永建
杜凱%張素銀%週蘭%方瑜%張林%唐永建
두개%장소은%주란%방유%장림%당영건
电化学%惯性约束聚变%电解%阳极化氧化铝%纳米丝
電化學%慣性約束聚變%電解%暘極化氧化鋁%納米絲
전화학%관성약속취변%전해%양겁화양화려%납미사
electrochemistry%inertial confinement fusion%electrolysis%anodized aluminum oxide%nanowire
报道了近年来在电解加工技术制备理论密度金属薄膜和电沉积技术制备金属纳米丝阵列材料等领域取得的进展.采用硫酸+甲醇电解液体系获得了表面粗糙度小于30 nm的钛膜.采用阳极氧化铝模板电沉积技术制备出长度约10 μm、直径约300 nm的金纳米丝阵列.主要讨论了电解液配方及电解加工参数的选择,金属纳米丝直径与长度的控制等问题.
報道瞭近年來在電解加工技術製備理論密度金屬薄膜和電沉積技術製備金屬納米絲陣列材料等領域取得的進展.採用硫痠+甲醇電解液體繫穫得瞭錶麵粗糙度小于30 nm的鈦膜.採用暘極氧化鋁模闆電沉積技術製備齣長度約10 μm、直徑約300 nm的金納米絲陣列.主要討論瞭電解液配方及電解加工參數的選擇,金屬納米絲直徑與長度的控製等問題.
보도료근년래재전해가공기술제비이론밀도금속박막화전침적기술제비금속납미사진렬재료등영역취득적진전.채용류산+갑순전해액체계획득료표면조조도소우30 nm적태막.채용양겁양화려모판전침적기술제비출장도약10 μm、직경약300 nm적금납미사진렬.주요토론료전해액배방급전해가공삼수적선택,금속납미사직경여장도적공제등문제.
Electrochemistry plays a very important role in inertial confinement fusion(ICF) target preparation. This paper reports the preparation of metal foil with theoretical density by electrical chemical machining and metal nanowire array by electrodeposition on anodized aluminum oxide(AAO) template. Ti foils with surface roughness less than 30 nm and Au nanowire arrays with length about 10 μm, diameter about 300 nm were prepared. The choices of electrolyte composition and electrochemical parameters, and diameter and length control of nanowires were investigated.