Multiplex Fiber Optic Biosensor and Detection method by Using the Same
First Claim
1. A multiplex fiber optic biosensor, comprising:
- an optical fiber including a plurality of sensing regions, wherein the sensing regions are unclad regions of the optical fiber so that a fiber core of the optical fiber is exposed;
a plurality of noble metal nanoparticle layers being set in the sensing regions;
a plurality of light sources designed to emit lights with different wavelengths, and the noble metal nanoparticle layers absorbing the lights with different wavelengths, respectively; and
a light source function generator designed to generate a function for enabling the light sources emitting the lights with different timing sequences or different carrier frequencies in accordance with the function;
wherein, when the lights propagate along the optical fiber in accordance with the different timing sequences or the different carrier frequencies, a detection unit is used to detect particle plasmon resonance signals produced by interactions between the noble metal nanoparticle layers and corresponding analytes.
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Abstract
A multiplex fiber optic biosensor including an optical fiber, a plurality of noble metal nanoparticle layers, a plurality of light sources and a light source function generator is disclosed. The optical fiber includes a plurality of sensing regions which are unclad regions of the optical fiber so that the fiber core is exposed, wherein the noble metal nanoparticle layers are set in each sensing regions. The light sources emit light with different wavelengths, and the noble metal nanoparticle layers absorb the lights with different wavelengths, respectively. The light sources emit the lights in different timing sequences or different carrier frequencies, wherein when the lights propagate along the optical fiber in accordance with the different timing sequences or the different carrier frequencies, a detection unit detects particle plasmon resonance signals produced by interactions between the different noble metal nanoparticle layers and the corresponding analytes.
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Citations
10 Claims
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1. A multiplex fiber optic biosensor, comprising:
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an optical fiber including a plurality of sensing regions, wherein the sensing regions are unclad regions of the optical fiber so that a fiber core of the optical fiber is exposed; a plurality of noble metal nanoparticle layers being set in the sensing regions; a plurality of light sources designed to emit lights with different wavelengths, and the noble metal nanoparticle layers absorbing the lights with different wavelengths, respectively; and a light source function generator designed to generate a function for enabling the light sources emitting the lights with different timing sequences or different carrier frequencies in accordance with the function; wherein, when the lights propagate along the optical fiber in accordance with the different timing sequences or the different carrier frequencies, a detection unit is used to detect particle plasmon resonance signals produced by interactions between the noble metal nanoparticle layers and corresponding analytes. - View Dependent Claims (2, 3, 4, 5)
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6. A multiplex fiber optic biosensor detection method, comprising the following steps:
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providing an optical fiber and a plurality of noble metal nanoparticle layers, wherein the optical fiber comprises a plurality of sensing regions, and the sensing regions are unclad regions of the optical fiber so that a fiber core of the optical fiber is exposed, and the noble metal nanoparticle layers are set in the sensing regions; providing a light source function generator and a plurality of light sources, wherein the light source function generator is designed to generate a function, so that the light sources emit lights in accordance with different timing sequences or different carrier frequencies based on the function, and the noble metal nanoparticle layers absorb the lights with different wavelengths, respectively; and providing a detection unit, wherein, when the lights propagate along the optical fiber in accordance with the different timing sequences or the different carrier frequencies, the detection unit is used to detect particle plasmon resonance signals produced by interactions between the noble metal nanoparticle layers and corresponding analytes. - View Dependent Claims (7, 8, 9, 10)
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Specification