南京师大学报(自然科学版)
南京師大學報(自然科學版)
남경사대학보(자연과학판)
JOURNAL OF NANJING NORMAL UNIVERSITY (NATURAL SCIENCE EDITION)
2014年
2期
68-74
,共7页
化学沉积%表面增强红外%Cu纳米粒子%Ge%表面活性剂
化學沉積%錶麵增彊紅外%Cu納米粒子%Ge%錶麵活性劑
화학침적%표면증강홍외%Cu납미입자%Ge%표면활성제
chemical deposition%SEIRA%copper nanoparticles%Ge%surfactant
利用化学沉积法在锗基底上制备金属铜纳米粒子,探讨了表面活性剂的种类、浓度、沉积时间等因素对铜纳米粒子形貌的影响。以二巯基丁二酸为探针分子,用红外衰减全反射方法( ATR)和红外透射法( TR)考察了所制备的活性基底的红外表面增强效果。用SEM对制备的基底进行了表征。结果显示:(1)1×10-3 mol/L的硫酸铜溶液中加入1 mL三乙醇胺表面活性剂,沉积时间为8 h所制备的活性基底在ATR测量时红外增强效果最好,但在红外TR测量时则没有增强信号,其粒径在100 nm左右。(2)1×10-3 mol/L的硫酸铜溶液中加入1 mL聚乙二醇400表面活性剂,沉积时间为8 h所制备的活性基底在TR测量时红外增强信号远远大于用ATR测量时的增强信号,其粒径在500 nm左右。该材料在生物样品的检测方面有一定的应用价值。同时考察了所制备的铜纳米粒子的稳定性,结果表明该基底材料具有较好的稳定性。
利用化學沉積法在鍺基底上製備金屬銅納米粒子,探討瞭錶麵活性劑的種類、濃度、沉積時間等因素對銅納米粒子形貌的影響。以二巰基丁二痠為探針分子,用紅外衰減全反射方法( ATR)和紅外透射法( TR)攷察瞭所製備的活性基底的紅外錶麵增彊效果。用SEM對製備的基底進行瞭錶徵。結果顯示:(1)1×10-3 mol/L的硫痠銅溶液中加入1 mL三乙醇胺錶麵活性劑,沉積時間為8 h所製備的活性基底在ATR測量時紅外增彊效果最好,但在紅外TR測量時則沒有增彊信號,其粒徑在100 nm左右。(2)1×10-3 mol/L的硫痠銅溶液中加入1 mL聚乙二醇400錶麵活性劑,沉積時間為8 h所製備的活性基底在TR測量時紅外增彊信號遠遠大于用ATR測量時的增彊信號,其粒徑在500 nm左右。該材料在生物樣品的檢測方麵有一定的應用價值。同時攷察瞭所製備的銅納米粒子的穩定性,結果錶明該基底材料具有較好的穩定性。
이용화학침적법재타기저상제비금속동납미입자,탐토료표면활성제적충류、농도、침적시간등인소대동납미입자형모적영향。이이구기정이산위탐침분자,용홍외쇠감전반사방법( ATR)화홍외투사법( TR)고찰료소제비적활성기저적홍외표면증강효과。용SEM대제비적기저진행료표정。결과현시:(1)1×10-3 mol/L적류산동용액중가입1 mL삼을순알표면활성제,침적시간위8 h소제비적활성기저재ATR측량시홍외증강효과최호,단재홍외TR측량시칙몰유증강신호,기립경재100 nm좌우。(2)1×10-3 mol/L적류산동용액중가입1 mL취을이순400표면활성제,침적시간위8 h소제비적활성기저재TR측량시홍외증강신호원원대우용ATR측량시적증강신호,기립경재500 nm좌우。해재료재생물양품적검측방면유일정적응용개치。동시고찰료소제비적동납미입자적은정성,결과표명해기저재료구유교호적은정성。
The copper nanoparticles were prepared on Ge disks by wet-chemical deposition. The influence factors on the morphology of the prepared nanoparticles,such as the type of surfactant,concentration,deposition time,were studied. The surface enhanced infrared absorption( SEIRA) effect of the Cu nanoparticles were measured in attenuated total reflection spectroscopy(ATR-FTIR)and transmittance spectroscopy(TR-FTIR)using dimercaptosuccinic acid as the probe. The nanostructure of the copper surface was characterized by scanning electron microscopy ( SEM ) . The results show that copper nanoparticles prepared by adding surfactant triethanolamine,a mean particle size of 100 nm,exhibit strong surface enhanced infrared absorption(SEIRA) effect in ATR but no SEIRA in TR. In contrast with this,the as-deposited Cu nanoparticles(500 nm) adding surfactant polyethylene glycol 400 show less SEIRA in ATR and strong SEIRA in TR. These active Cu nanoparticles can be used in biochemistry analysis. The optimized conditions for preparing copper nanoparticles are as follows:(1)1×10-3 mol/L CuSO4 solution adding 1 mL triethanolamine,depositing on Ge with 8 h for ATR SEIRA material;(2)1×10-3 mol/L CuSO4 solution adding 1 mL polyethylene glycol 400,depositing on Ge with 8 h for TR SEIRA material. Meanwhile the stability of the copper nanoparticles SEIRA has been studied,it showed that the active Cu nanoparticles have good stability.
