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Optical waveguide biochemical sensor and measurement system based on free space coupling

A biochemical sensor and free space technology, applied in the field of measurement systems, can solve the problems of high sensitivity of evanescent field sensors, difficulty in small angle detection, high detection sensitivity, etc., and achieve low requirements for the range of refractive index and broad market Development prospect, high detection efficiency effect

Inactive Publication Date: 2005-03-16
SHANGHAI JIAO TONG UNIV
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Problems solved by technology

Disadvantages: (1) For sensors based on leaky optical waveguide and optical fiber technology, the width of the resonant mode ATR absorption peak may be very narrow, but its samples are usually used as the cladding layer of optical waveguide or optical fiber, and the light in the cladding layer can account for only a few percent of the total light energy of the resonant mode
Therefore, the sensitivity of evanescent field sensors based on leaky optical waveguide and fiber optic technology cannot usually be made very high
(2) For the SPR sensor, although more than half of the light energy is in the detection area, it has a high detection efficiency, but due to the absorption of the metal film, the width of the ATR absorption peak is very large, and it is also difficult to achieve a large High detection sensitivity
However, the sensor uses coupling devices such as prisms, which greatly restricts the above method in the measurement field that requires a small device size, and at the same time has certain difficulties in realizing small-angle detection

Method used

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  • Optical waveguide biochemical sensor and measurement system based on free space coupling
  • Optical waveguide biochemical sensor and measurement system based on free space coupling
  • Optical waveguide biochemical sensor and measurement system based on free space coupling

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Embodiment Construction

[0017] Such as figure 1 , figure 2 , image 3 , Figure 4 , Figure 5 As shown, the optical waveguide biochemical sensor 1 of the present invention includes: an upper metal film 9, an upper optical glass sheet 10, a solution chamber 11, a lower optical glass sheet 12, a lower metal film 13, a spacer 14, a platform 15, and a spiral micrometer 16 . The upper metal film 9 is deposited on the upper optical glass sheet 10 , and the lower metal film 13 is deposited on the lower optical glass sheet 12 . The metal film of the upper layer of optical glass sheet 10 faces upward, the metal film of the lower layer of optical glass sheet 12 faces down, and the upper layer of optical glass sheet 10, the solution chamber 11, and the lower layer of glass sheet 12 are stacked in sequence, and placed on the platform 15. The spacer 14 is against, and the whole structure is pressed against by rotating the screw micrometer 16 . Wherein the upper optical glass sheet 10 and the lower optical ...

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Abstract

It is a light wave-guide biochemistry sensor and its measurement system based on free space couple, which belongs to accuracy analysis and measurement device. The light wave guide biochemistry sensor is fixed on the center of the upper disc of the optics rotation desk, which comprises upper metal film, upper optics glass sheet, solvent chamber, ground optics glass sheet, ground metal film, cushion block, platform and micrometer screw gage. The upper metal film deposits on the upper optics glass sheet and the ground metal film deposits on the ground optics glass sheet. The metal film surface of upper optics glass sheet faces upward and that of the ground optics glass sheet faces downward. The upper optics glass sheet, solvent chamber, ground glass sheet are orderly folded and laid on the platform with cushion block supported, which are tightly supported through micrometer screw gage.

Description

technical field [0001] The invention relates to a sensor and a measurement system composed of the sensor, in particular to a free-space coupling-based optical waveguide biochemical sensor without a prism coupling unit and a measurement system. It is used in the field of precision analysis and measuring instruments. Background technique [0002] Since the late 1980s, sensors based on surface plasmon resonance (SPR), optical waveguide, and fiber optic technologies have received extensive attention. This type of sensor is simple in structure, easy to use, and reliable, and can be applied to the measurement of multiple parameters in the fields of biology, chemistry, and physics, especially in the fields of protein structure, antibody antigen detection, and other important applications. A common feature of this type of sensors is that the sample to be measured is in the evanescent field region of the resonant mode (surface plasmon wave and optical guided wave). Therefore, such ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01B11/06G01N21/41G01N21/552G01N21/59G01N21/86
Inventor 陈凡曹庄琪沈启舜顾江华邓晓旭
Owner SHANGHAI JIAO TONG UNIV
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