中国光学
中國光學
중국광학
CHINESE JOURNAL OF OPTICS
2014年
1期
118-123
,共6页
薛彬%孔祥贵%王丹%夏露%李晓坤%于沂%孙雅娟%吴飞%赵慧颖
薛彬%孔祥貴%王丹%夏露%李曉坤%于沂%孫雅娟%吳飛%趙慧穎
설빈%공상귀%왕단%하로%리효곤%우기%손아연%오비%조혜영
表面增强拉曼光谱%银纳米三角片%聚集%785 nm激光
錶麵增彊拉曼光譜%銀納米三角片%聚集%785 nm激光
표면증강랍만광보%은납미삼각편%취집%785 nm격광
SERS%silver nanoprisms%aggregation%785 nm laser
为实现表面增强拉曼散射( SERS)光谱的强信号快速检测分析,报道了通过785 nm激光诱导银纳米三角片( Ag-NPRs)聚集的方法。采用配体辅助化学还原法制备了AgNPRs,其边长约为80 nm,表面等离子体吸收峰出现在约774 nm处,对785 nm光产生有效吸收。在785 nm光辐照下,AgNPRs逐渐聚集,对巯基苯甲酸的SERS信号逐渐增强,其源于AgNPRs吸收的光转化为热而引起的AgNPRs聚集。其增强因子高达109。为快速获得强SERS信号,激发光功率需大于250 mW。
為實現錶麵增彊拉曼散射( SERS)光譜的彊信號快速檢測分析,報道瞭通過785 nm激光誘導銀納米三角片( Ag-NPRs)聚集的方法。採用配體輔助化學還原法製備瞭AgNPRs,其邊長約為80 nm,錶麵等離子體吸收峰齣現在約774 nm處,對785 nm光產生有效吸收。在785 nm光輻照下,AgNPRs逐漸聚集,對巰基苯甲痠的SERS信號逐漸增彊,其源于AgNPRs吸收的光轉化為熱而引起的AgNPRs聚集。其增彊因子高達109。為快速穫得彊SERS信號,激髮光功率需大于250 mW。
위실현표면증강랍만산사( SERS)광보적강신호쾌속검측분석,보도료통과785 nm격광유도은납미삼각편( Ag-NPRs)취집적방법。채용배체보조화학환원법제비료AgNPRs,기변장약위80 nm,표면등리자체흡수봉출현재약774 nm처,대785 nm광산생유효흡수。재785 nm광복조하,AgNPRs축점취집,대구기분갑산적SERS신호축점증강,기원우AgNPRs흡수적광전화위열이인기적AgNPRs취집。기증강인자고체109。위쾌속획득강SERS신호,격발광공솔수대우250 mW。
Surface enhanced Raman spectroscopy ( SERS ) is an ultrasensitive vibrational spectroscopic tech-nique to detect molecules .At present , adding salts is a main way to induce nanoparticles aggregation to get gi-ant enhancement .However , this method needs more procedures and salts may etch nanoparticles .Here an ef-fective and simple method is reported to enhance SERS effect by the aggregation of silver nanoprisms ( Ag-NPRs) induced by 785 nm laser .Silver nanoprisms were prepared by ligand-assisted chemical reductions method.AgNO3 were reduced by NaBH4 in the presence of trisodium citrate, poly(vinylpyrrolidone) and H2 O2 .The edge of silver nanoprisms is about 80 nm.Surface plasmon band of silver nanoprisms is around 774 nm which could effectively absorb 785 nm laser .When laser irradiating silver nanoprisms during the detection of Raman spectra , these nanoprisms gradually aggregated and SERS spectra of analytes ( 4-mercaptobenzoic acid, 4-MBA) were gradually enhanced .And enhancement factor of Raman spectra ~109 is obtained by this method.Due to the huge magnitude of SERS in the near infrared region ( excitation wavelength 785 nm) , this technique has the potential in the field of biochemical tests .