稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
12期
2199-2201
,共3页
Au%纳米球壳%纳米管%飞秒激光辐照
Au%納米毬殼%納米管%飛秒激光輻照
Au%납미구각%납미관%비초격광복조
Au%nanoshell%nanotube%femtosecond laser exposure
采用800 nm的飞秒(10~(-15) s,fs,下同)激光对湿化学法制备的金纳米球壳水溶胶进行辐照,研究辐照后金纳米球壳的形貌变化.结果表明,原来直径为20~50 nm的准球壳形纳米金粒子辐照后变为管状结构,其直径约为10 nm,长度为100~200 nm.辐照后其吸收光谱在约800 nm处的吸收峰消失,在约450 nm处出现了新的吸收峰.这种飞秒激光辐照下形貌变化的原因为:在飞秒激光辐照下产生了静电场,在电场力的作用下,相互靠近的金纳米球壳彼此链接,并沿着电场方向伸展,形成了管状结构.
採用800 nm的飛秒(10~(-15) s,fs,下同)激光對濕化學法製備的金納米毬殼水溶膠進行輻照,研究輻照後金納米毬殼的形貌變化.結果錶明,原來直徑為20~50 nm的準毬殼形納米金粒子輻照後變為管狀結構,其直徑約為10 nm,長度為100~200 nm.輻照後其吸收光譜在約800 nm處的吸收峰消失,在約450 nm處齣現瞭新的吸收峰.這種飛秒激光輻照下形貌變化的原因為:在飛秒激光輻照下產生瞭靜電場,在電場力的作用下,相互靠近的金納米毬殼彼此鏈接,併沿著電場方嚮伸展,形成瞭管狀結構.
채용800 nm적비초(10~(-15) s,fs,하동)격광대습화학법제비적금납미구각수용효진행복조,연구복조후금납미구각적형모변화.결과표명,원래직경위20~50 nm적준구각형납미금입자복조후변위관상결구,기직경약위10 nm,장도위100~200 nm.복조후기흡수광보재약800 nm처적흡수봉소실,재약450 nm처출현료신적흡수봉.저충비초격광복조하형모변화적원인위:재비초격광복조하산생료정전장,재전장력적작용하,상호고근적금납미구각피차련접,병연착전장방향신전,형성료관상결구.
Colloidal gold nanoshells prepared by wet chemical method were irradiated using 800 nm femtosecond laser and their shape change was investigated. Results show that the gold nanoparticles of quasi-sphere-shells with 20~50 nm diameter changed to tube structure of 100~200 nm length and 10 nm diameter after femtosecond laser exposure. In the adsorption spectra, the absorption peak of the gold nanoshell at about 800 nm disappeared and a new absorption peak appeared at about 450 nm. The shape change can be attributed to the electrostatic field from the femtosecond laser exposure. With the force of the electrostatic field, nearby gold nanoshells linked each other, and extended along the electrostatic filed direction to form tube structure.