红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2013年
3期
626-630
,共5页
太赫兹波%太赫兹时域光谱技术%抗生素%青霉素类
太赫玆波%太赫玆時域光譜技術%抗生素%青黴素類
태혁자파%태혁자시역광보기술%항생소%청매소류
terahertz wave%THz-TDS technique%antibiotics%penicillin antibiotics
以一类常用的抗生素-青霉素类抗生素作为研究对象,选取4种具有代表性的药品磺苄西林、舒他西林、美洛西林、替卡西林,基太赫兹时光谱(THz-TDS)技术,进行实验研究.通过光谱实验及理论分析,获取药品的太赫兹时光谱,结合傅里变换,获得频光谱及太赫兹吸收系数曲线.结果表明,4种药品在0.40~1.60 THz波段存在明显不同的吸收特征.此,太赫兹光谱技术十分适合检测抗生素这种化学结构有微小不同的药品,并且可以清晰通过吸收峰的位置分辨出抗生素药类的种类.为国家食品药品监督管理提供一种新的可靠的检测技术,且可以以数据库的形式为药品的鉴定提供标准.
以一類常用的抗生素-青黴素類抗生素作為研究對象,選取4種具有代錶性的藥品磺芐西林、舒他西林、美洛西林、替卡西林,基太赫玆時光譜(THz-TDS)技術,進行實驗研究.通過光譜實驗及理論分析,穫取藥品的太赫玆時光譜,結閤傅裏變換,穫得頻光譜及太赫玆吸收繫數麯線.結果錶明,4種藥品在0.40~1.60 THz波段存在明顯不同的吸收特徵.此,太赫玆光譜技術十分適閤檢測抗生素這種化學結構有微小不同的藥品,併且可以清晰通過吸收峰的位置分辨齣抗生素藥類的種類.為國傢食品藥品鑑督管理提供一種新的可靠的檢測技術,且可以以數據庫的形式為藥品的鑒定提供標準.
이일류상용적항생소-청매소류항생소작위연구대상,선취4충구유대표성적약품광변서림、서타서림、미락서림、체잡서림,기태혁자시광보(THz-TDS)기술,진행실험연구.통과광보실험급이론분석,획취약품적태혁자시광보,결합부리변환,획득빈광보급태혁자흡수계수곡선.결과표명,4충약품재0.40~1.60 THz파단존재명현불동적흡수특정.차,태혁자광보기술십분괄합검측항생소저충화학결구유미소불동적약품,병차가이청석통과흡수봉적위치분변출항생소약류적충류.위국가식품약품감독관리제공일충신적가고적검측기술,차가이이수거고적형식위약품적감정제공표준.
Terahertz time-domain spectroscopy (THz-TDS) technique is a new technology that can be used for non-destructive testing (NDT), research of molecular dynamics, the nature of crystal, structure and conformation of biological molecules etc. In this work, based on THz-TDS technique, antibiotics of four representative penicillin antibiotic drugs (sulbenicillin sultamicillin, mezlocillin, ticarcillin) were investigated. THz spectral features of antibiotics were studied with the method of both experimental measurement and theoretical analysis. This material was identified through testing the absorption and index of refractive. The experimental results show that the absorption spectra of the four antibiotics between 0.40-1.60 THz are obviously different, which are therefore the fingerprints of them. The research indicates that THz-TDS technique is very suitable for the detection of antibiotics which have slight difference in chemical structure, and the antibiotic medicine can be distinguished clearly by their THz fingerprint spectra.