CN1873450A

CN1873450A - Biosensor of full fiber optic evanescent wave

Info

Publication number: CN1873450A
Application number: CN 200610089497
Authority: CN
Inventors: 施汉昌; 龙峰; 何苗
Original assignee: Tsinghua University
Current assignee: Tsinghua University
Priority date: 2006-06-30
Filing date: 2006-06-30
Publication date: 2006-12-06
Anticipated expiration: 2026-06-30
Also published as: CN100470279C

Abstract

The invention relates to a full optical fiber instant passing wave biology sensor technology to realize biological detection by using laser to excite the biology material to emitting. The feature is that the laser transferring and fluorescence receiving path of the sensor contains an optical fiber probe, a single and multiple optical fiber coupler. The laser from the laser emitting device would send to the end of the single-mode optical fiber, and the other end coupling to multimode fiber. One end of the multimode fiber connects to fiber probe, and the other end locating in the light incidence end of fluorescence collecting and data processing device. The invention could decrease the consumption, improve coupling efficiency and decrease optical discrete element and simplify instrument structure.

Description

Biosensor of full fiber optic evanescent wave

Technical field:

Biosensor of full fiber optic evanescent wave belongs to technical field of biological, specially refers to that to utilize laser excitation to be marked with the biological substance of fluorescence molecule luminous, thereby realizes the technology of biological detection.

Background technology:

Biologic sensor for fast travelling waves of optical fibre produces evanescent wave when utilizing light wave to transmit in the total reflection mode in the residing medium of fibre-optical probe in optical fiber, this evanescent wave can excite by absorption or with biological compatible reaction and be connected the biological substance that is marked with fluorescence molecule on the detecting head surface, thereby realize detecting the purpose of target substance concentration to be measured.Usually the penetration depth of evanescent wave field has only tens nanometer to the hundreds of nanometer, be incorporated into the fluorescence that the fluorescence molecule in the scope of evanescent wave field sends so biologic sensor for fast travelling waves of optical fibre can only detect, and free fluorescence molecule is contributed to testing result in the solution very little.Therefore biologic sensor for fast travelling waves of optical fibre have highly sensitive, biologic specificity is strong; Simple to operate, measuring speed is fast; Can monitor the dynamic process of biological respinse; Complete machine can miniaturization etc. characteristics, thereby make it obtain using widely in biomedical research, food inspection, environmental monitoring, biological warfare agent field of detecting.

Traditional biologic sensor for fast travelling waves of optical fibre mainly is to utilize optical fiber as probe and optical information hop, and utilizes separating component in a large number in the parts such as collection of signal.Transmission, collection and the detection of the fluorescence that goes out to exciting light with from fibre-optical probe one end-fire all is to adopt conventional optical system, generally includes optical elements such as catoptron, lens combination, chopper.Therefore there is system complex; Energy loss is big; Element positioning requirements height; Big, the difficult instrument miniaturization of realizing takes up room; The light path arrangement flexibility ratio is low, regulates shortcomings such as difficulty is big.As document 1[G.Duveneck, M.Ehrat, H.M.Widmer.Fiber optic evanescentwave biosensor (biologic sensor for fast travelling waves of optical fibre) .SPIE, 1991,1510:138～145]; The yellow favour outstanding person of document 2[, Zhai Junhui, an ice is strong etc., biologic sensor for fast travelling waves of optical fibre and application thereof, optics journal, 2003,23 (4): 451～454].

By retrieval, do not relate to the technical scheme of related content of the present invention in the present disclosed document.

Summary of the invention:

The objective of the invention is to, a kind of biosensor of full fiber optic evanescent wave is proposed, the transmission that the present invention utilizes list, multi-module optical fiber coupler to combine with fibre-optical probe to finish exciting light and the collection and the transmission of fluorescence, single-mode fiber can effectively reduce the energy loss of light transmission, the multimode optical fiber that the fluorescence receiving light path adopts not only can increase the fluorescence quality that detecting head surface can be excited, and can improve the coupling efficiency of fluorescence, so just, the transmission efficiency of light and the signal to noise ratio (S/N ratio) of instrument have been improved, and reduced the optical fractionation element as much as possible, simplified apparatus structure.Adopt the joints of optical fibre can realize the sequence detection of several samples simultaneously.

The biologic sensor for fast travelling waves that the present invention proposes, contain laser beam emitting device, Laser Transmission and fluorescence receiving light path, sample flow path, fluorescence is gathered and data processing equipment, it is characterized in that, described Laser Transmission and fluorescence receiving light path contain fibre-optical probe (8) and list that places sample flow path, multi-module optical fiber coupler (5), described list, multi-module optical fiber coupler (5) contains a single-mode fiber (501) and a root multimode fiber (502), the laser emitting end of described laser beam emitting device is coupled to an end of described single-mode fiber (501) to fiber coupler (2) by a laser, the other end of described single-mode fiber (501) is coupled in the described multimode optical fiber (502), one end of described multimode optical fiber (502) connects described fibre-optical probe (8), and its other end places the light incident side of described fluorescence collection and data processing equipment.

Described multimode optical fiber (502) can be connected with described fibre-optical probe (8) by joints of optical fibre (6).

Evidence, biology sensor proposed by the invention can effectively reduce the energy loss of light transmission, improves the coupling efficiency of fluorescence, has further improved the transmission efficiency of light and the signal to noise ratio (S/N ratio) of instrument, and reduced the optical fractionation element as much as possible, simplified apparatus structure.

Description of drawings:

Fig. 1 is the structural representation of biosensor of full fiber optic evanescent wave of the present invention.

Fig. 2 is single, the multi-module optical fiber coupler structural representation in the biosensor of full fiber optic evanescent wave of the present invention.

Fig. 3 is the fibre-optical probe structural representation in the biosensor of full fiber optic evanescent wave of the present invention.

Embodiment:

See also Fig. 1, Fig. 1 is the structural representation of biosensor of full fiber optic evanescent wave of the present invention.As seen from the figure, biosensor of full fiber optic evanescent wave of the present invention comprises laser beam emitting device, Laser Transmission and fluorescence receiving light path, sample flow path, fluorescence harvester and data processing equipment.Wherein laser beam emitting device contains pulsed laser 1 and pulse signal generator 10; Laser Transmission and fluorescence receiving light path contain laser to fiber coupler 2, list, multi-module optical fiber coupler 5 and fibre-optical probe 8; Sample flow path contains sample cell 9, peristaltic pump 13, and sample cell inlet 7 and sample cell outlet 14 are arranged on the sample cell; Fluorescence collection and data processing equipment contain fluorescent optical filter 4, photodetector 3, lock-in amplifier 11 and computing machine 12.

As seen from Figure 1, the laser that pulsed laser 1 sends enters single-mode fiber 501 in list, the multi-module optical fiber coupler 5 by laser to fiber coupler 2, multimode optical fiber 502 transmission through list, multi-module optical fiber coupler 5 enter fibre-optical probe 8 then, produce evanescent wave in fibre-optical probe 8 near surfaces zones, be connected the fibre-optical probe 8 lip-deep biological substances that are marked with fluorescence molecule and send fluorescence to excite.Part fluorescence coupled back into optical fibers pops one's head in 8, enters the multimode optical fiber 502 of list, multi-module optical fiber coupler 5, in the other end ejaculation of multimode optical fiber 502.Fluorescent optical filter 4 filterings exciting light reflection or that lose, and most of fluorescence is seen through, the fluorescence that sees through is surveyed by photodetector 3 (can adopt photodiode) and is converted light signal to electric signal, this electric signal amplifies through lock-in amplifier 11 then, gathers the line data analysis of going forward side by side by computing machine 12.The pulse signal of pulsed laser 1 is provided by pulse signal generator 10, and pulse signal generator 10 provides the same frequency signal as the reference signal for lock-in amplifier 11 simultaneously.

As shown in Figure 2, principal feature of the present invention is to have adopted Laser Transmission and fluorescence receiving light path single, that multi-module optical fiber coupler 5 has substituted optical elements compositions such as traditional reflective mirror, lens combination.Single, the multi-module optical fiber coupler that adopts is to draw the awl method to make with welding commonly used at present, wherein single-mode fiber 501 is introduced multimode optical fiber as the Laser Transmission light path with exciting light, because single-mode fiber only transmits a kind of light of pattern, thereby can stop the loss of light effectively.And the fluorescence receiving light path adopts multimode optical fiber, not only can increase the fluorescence quality that detecting head surface can be excited, and can improve the coupling efficiency of fluorescence, thus the sensitivity and the signal to noise ratio (S/N ratio) of raising system.

As shown in Figure 3, fibre-optical probe 8 adopts the conventional tapered form of combination, and the part covering 801 of optical fiber is removed, and making up tapered probe 802 finishinges has biological identification molecule.Like this, can improve the incident angle of incident light on the one hand, make incident light increase, increase the number of times that excites, thereby can inspire more fluorescent energy fluorescence molecule at fibre-optical probe 8 internal reflection number of times; On the other hand, the fluorescence that is coupled into probe with the high-order mode form can be changed into low-order mode, reduce the fluorescence losses that does not match and cause because of pattern, with collection and the transfer efficiency of further raising system fluorescence.

Fibre-optical probe 8 can be an end of multimode optical fiber, but being the sequence detection of sample, this structure makes troubles, for the sequence detection several samples, can adopt dismountable joints of optical fibre 6 (as FC, SC, ST type etc.) that fibre-optical probe 8 is connected with single, multi-module optical fiber coupler 5.After using the joints of optical fibre 6, after having detected a certain sample, can be replaced with the probe that another is modified with other biological identification molecule, to realize the detection of other sample.

Peristaltic pump 13 is arranged in the sample flow path, and sample cell has sample inlet 7 and sample export 14, under the effect of peristaltic pump 13, sample can be sucked sample cell 9, and the sample that maybe test is finished is discharged sample cell 9, so that detect different samples or clean sample cell 9.

Identical with the using method of traditional biosensor of full fiber optic evanescent wave, before biosensor of full fiber optic evanescent wave of the present invention detects, need to modify biological identification molecule at probe 8, will pop one's head in then 8 places sample cell 9.Open peristaltic pump 13, testing sample is sucked sample cell 9, behind the reaction certain hour, open pulsed laser 1, exciting light will be in the total reflection mode by single, multi-module optical fiber coupler 5 enters probe 8, the evanescent wave that laser beam produces during multihop propagation in probe 8 excites the fluorescence molecule of detecting head surface, fluorescence molecule sends fluorescence, part is coupled back and pops one's head in 8, after multimode optical fiber 502 transmission, penetrate from multimode optical fiber 502 other ends, through the fluorescent optical filter 4 laggard photodetector 3 of going into that filters, be converted into the electric signal that is directly proportional with fluorescence signal intensity, amplify the back through lock-in amplifier 11 and gathered by computing machine 12.The electric signal that computing machine 12 collects is directly proportional with the concentration of detecting head surface measured matter, by the amplitude of analyzing electric signal can obtain the popping one's head in concentration of 8 surperficial measured matters.

The present invention has provided an embodiment, and its concrete structure and parameter are as follows:

LASER Light Source is that centre wavelength is the semiconductor laser 1 of 635nm, and output power is 8mW, and laser is to coupling efficiency 〉=20% of fiber coupler 2.Optical fiber single, multi-module optical fiber coupler 5 is silica fibre, and wherein the diameter of single-mode fiber is 3 μ m, and numerical aperture is 0.11; The diameter of multimode optical fiber 502 is 600 μ m, and numerical aperture is 0.22.Transmitance≤10 of 4 pairs of exciting lights of fluorescent optical filter ^-7, to transmitance 〉=80% of fluorescence.Photodetector 3 is a photodiode.

During measurement, the biological sample solution of Cy5.5 fluorescence molecule that in sample cell 6, injected mark, every fibre-optical probe all reaches 10 to the detection sensitivity of Cy5.5 fluorescence molecule solution among the embodiment ^-10Mol/L.The detection sensitivity difference of each fibre-optical probe is less than 5%.Finish first order fluorescence input required time and be less than 15min.

Claims

1, biosensor of full fiber optic evanescent wave, contain laser beam emitting device, Laser Transmission and fluorescence receiving light path, sample flow path, fluorescence is gathered and data processing equipment, it is characterized in that, described Laser Transmission and fluorescence receiving light path contain fibre-optical probe (8) and list that places sample flow path, multi-module optical fiber coupler (5), described list, multi-module optical fiber coupler (5) contains a single-mode fiber (501) and a root multimode fiber (502), the laser emitting end of described laser beam emitting device is coupled to an end of described single-mode fiber (501) to fiber coupler (2) by a laser, the other end of described single-mode fiber (501) is coupled in the described multimode optical fiber (502), one end of described multimode optical fiber (502) connects described fibre-optical probe (8), and its other end places the light incident side of described fluorescence collection and data processing equipment.

2, biosensor of full fiber optic evanescent wave according to claim 1 is characterized in that, described multimode optical fiber (502) is connected with described fibre-optical probe (8) by joints of optical fibre (6).