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Interference SPR chemical and biological sensor and system with fibre-optical microstructure Michelson

A biosensor and microstructure technology, which is applied in the fields of chemistry and biology, and optical fiber sensing, can solve the problems of affecting total reflection characteristics, inability to manufacture, and difficulty in alignment and debugging, so as to achieve accurate and controllable manufacturing process, not easy to electromagnetic interference, and easy to manufacture mass easy effect

Inactive Publication Date: 2005-12-28
曾祥楷
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Problems solved by technology

[0016] There are also some defects in this type of sensor and system: (1) The prism-type sensor head is complex and bulky
The production of the optical fiber sensor head is cumbersome and difficult, and the cladding needs to be removed by chemical corrosion or mechanical abrasion, and the removal position or size of the cladding is difficult to precisely control
It is also difficult to fabricate a metal diffraction grating type sensor head
(2) The stability of the system is poor: whether it is wavelength modulation or angle modulation method, the signal detected directly is the light intensity, and it is the light intensity of a single optical path
The fluctuation and interference of the light source, optical path and circuit system have a great impact on the sensing system, reducing the reliability and accuracy
In the existing single light path intensity detection, this effect is difficult to eliminate
(3) Strong stray light interference: In the three SPR sensors of prism type, metal grating type and fiber optic type, stray light can enter the optical path and detector
(4) For fiber optic sensors, after chemical corrosion or mechanical abrasion of the cladding, there will be a rough interface, and it is difficult to obtain a smooth optical surface of the fiber core, which will affect the total reflection characteristics irregularly and generate large noise signals. Significantly reduced signal-to-noise ratio
(5) The data has no fault tolerance: the data obtained by the existing sensing system has no redundant information, and when there is a large interference and error, it will seriously affect the accuracy of the test or analysis results
(6) Weak telemetry capability: Prism-type and metal grating-type SPR sensors are difficult to achieve telemetry through optical fibers; at present, the optical fibers used in fiber-optic SPR sensors are mainly multi-mode fibers with large core diameters (small-core-diameter optical fiber sensors are difficult to manufacture, or even impossible) Production), generally only use a section of optical fiber of about tens of centimeters as the sensing head, it is difficult to make full use of the advantages of optical fiber
(7) The structure of the sensing system is complex and huge, and the operation is not flexible enough. Both the prism type and the metal grating type SPR sensor need a flow cell
The environmental adaptability is poor, the temperature change has a great influence on the test results, and the interference from the external vibration is also great, so it is very difficult to align and debug, and the same is true for the existing optical fiber sensors

Method used

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  • Interference SPR chemical and biological sensor and system with fibre-optical microstructure Michelson
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  • Interference SPR chemical and biological sensor and system with fibre-optical microstructure Michelson

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Embodiment Construction

[0034] Below in conjunction with the accompanying drawings, the implementation of the above sensor and system will be described by taking the concentration of the sucrose solution as an example. The composition of other biomolecules or chemical composition measurement systems and sensors in the form of gas or solution is similar to it, the difference is only in the optical fiber A different chemical or biomolecular sensitive film layer is solidified on the metal film layer outside the cladding.

[0035] see Figure 4 , the structure of the sensor includes: optical fiber coating layer 1, optical fiber cladding layer 2, optical fiber core 3, long period fiber grating LPFG 4, metal film layer 5, chemical or biomolecular absorption or sensitive film layer 6, reflective film 7 , protective cover 8, end curing glue 9, curing glue 10, transition buffer sleeve 11. The production method is: (1) remove a small section of plastic protective coating of a single-mode optical fiber (the fi...

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Abstract

A chemical and biological transducer is prepared by setting long period fibre grating, reflecting film on fibre section, fibre covering, fibre core and metal film on fibre covering surface on one piece of fibre to SPR transducer of fibre Michelson interferometer structure. The sensing system comprises wide band light source, fibre, chemical and biological transducer prepared as above, wide band coupler, fibre spectrograph and computer.

Description

technical field [0001] The invention belongs to the technical fields of optical fiber sensing, chemistry and biology, and in particular relates to an optical fiber microstructure Michelson interferometric SPR chemical and biological sensor and system. Background technique [0002] Optical fiber biological and chemical sensor is a new type of sensing technology that was born in the mid-1970s. , nucleic acid, DNA, animal and plant tissues or cells, microorganisms, polymer materials and other sensitive membranes, sol-gel or itself, adsorbed, solidified or installed on optical fibers, planar optical waveguides, capillary waveguides, and detect substances in samples Carry out selective identification, and then convert it into various optical information, such as signal output of ultraviolet, visible and infrared light absorption, reflection, fluorescence, phosphorescence, chemiluminescence and bioluminescence, Raman scattering, photoacoustic and surface plasmon resonance, etc. T...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N21/17
Inventor 曾祥楷
Owner 曾祥楷
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