光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2015年
5期
1173-1176
,共4页
陶春先%王琦%李业%王振云%卢忠荣%张大伟
陶春先%王琦%李業%王振雲%盧忠榮%張大偉
도춘선%왕기%리업%왕진운%로충영%장대위
光子晶体滤波器%导模共振效应%实时传感%光谱分析%稳定性
光子晶體濾波器%導模共振效應%實時傳感%光譜分析%穩定性
광자정체려파기%도모공진효응%실시전감%광보분석%은정성
Photonic crystal (PC) filter%Guided-mode resonance (GMR) effect%Real-time monitoring%Spectral analysis%Stability
由于光子晶体滤波器带宽窄和高灵敏度的特点,检测抗体含量极限可以达到ng?m L -1。可以应用于生物传感器监测生物大分子内部反应过程。一维光子晶体滤波器作为生物传感器换能元件将生物信息转化为可检测的光电信号信息,主要反应在光谱仪测得共振波峰所在波长的变化。精确测试时,检测传感系统的稳定性是首要考虑的关键因素。稳定性决定实验数据的有效性。该工作对所制备的基于导模共振效应的一维光子晶体滤波器结构进行形貌和光谱测试,介绍了实验室所搭建的实时检测传感系统。由于系统集成度、耦合损耗等因素的影响,光谱信息出现一定的噪声信号。因此,重点提出利用Lab VIEW编程实时监控光子晶体滤波器共振波峰值随时间的变化,由光谱变化情况来反应本套检测系统的稳定性和测试数据的有效性。同时这种实时监控程序也可用来监控其他基于导模共振生物传感系统的稳定度。该检测系统由于震动,光源抖动等问题产生的共振峰值漂移为0.25 nm ,通过与模拟计算结果比较可以判定系统稳定性可以达到试剂检测的要求。
由于光子晶體濾波器帶寬窄和高靈敏度的特點,檢測抗體含量極限可以達到ng?m L -1。可以應用于生物傳感器鑑測生物大分子內部反應過程。一維光子晶體濾波器作為生物傳感器換能元件將生物信息轉化為可檢測的光電信號信息,主要反應在光譜儀測得共振波峰所在波長的變化。精確測試時,檢測傳感繫統的穩定性是首要攷慮的關鍵因素。穩定性決定實驗數據的有效性。該工作對所製備的基于導模共振效應的一維光子晶體濾波器結構進行形貌和光譜測試,介紹瞭實驗室所搭建的實時檢測傳感繫統。由于繫統集成度、耦閤損耗等因素的影響,光譜信息齣現一定的譟聲信號。因此,重點提齣利用Lab VIEW編程實時鑑控光子晶體濾波器共振波峰值隨時間的變化,由光譜變化情況來反應本套檢測繫統的穩定性和測試數據的有效性。同時這種實時鑑控程序也可用來鑑控其他基于導模共振生物傳感繫統的穩定度。該檢測繫統由于震動,光源抖動等問題產生的共振峰值漂移為0.25 nm ,通過與模擬計算結果比較可以判定繫統穩定性可以達到試劑檢測的要求。
유우광자정체려파기대관착화고령민도적특점,검측항체함량겁한가이체도ng?m L -1。가이응용우생물전감기감측생물대분자내부반응과정。일유광자정체려파기작위생물전감기환능원건장생물신식전화위가검측적광전신호신식,주요반응재광보의측득공진파봉소재파장적변화。정학측시시,검측전감계통적은정성시수요고필적관건인소。은정성결정실험수거적유효성。해공작대소제비적기우도모공진효응적일유광자정체려파기결구진행형모화광보측시,개소료실험실소탑건적실시검측전감계통。유우계통집성도、우합손모등인소적영향,광보신식출현일정적조성신호。인차,중점제출이용Lab VIEW편정실시감공광자정체려파기공진파봉치수시간적변화,유광보변화정황래반응본투검측계통적은정성화측시수거적유효성。동시저충실시감공정서야가용래감공기타기우도모공진생물전감계통적은정도。해검측계통유우진동,광원두동등문제산생적공진봉치표이위0.25 nm ,통과여모의계산결과비교가이판정계통은정성가이체도시제검측적요구。
The detection limit of antibody content has reached level of nanograms per milliliter due to high sensitivity and ex-tremely narrow band of photonic crystal (PC) filter .The PC filter based on guided-mode resonance (GMR) effect can also be ap-plied to detecting the molecular interactions .As the transducing element ,one-dimensional PC filters transform biological infor-mation to photoelectric signal on optical spectrum analyzer (OSA) .The main sensing performance is the change of peak-wave-length of PC filter .The sensing system using PC filter is restricted to the system stability which determines the effectiveness of detecting data .So in this paper ,a detecting system we designed is briefly addressed .The morphology and the spectrum of PC filter we fabricated are tested .Considering the coupling light loss and integration of the system ,noise signal in spectrum is going to affect the detecting results .To monitor the influence ,realization of real-time monitoring the changes of the peak wavelength of PC filter is mainly illustrated .The monitoring is realized by transferring detecting data to computer in time and the results can represent the stability of the system .The program is compiled by Lab VIEW .In our experiment ,the shift of 0.25 nm of the peak wavelength caused by vibration of platform or unsteadiness of light source is within the sensitivity of the PC filter obtained by simulation ,so we proposed this system we mentioned can be used in sensing most kind of bulk reagents .
