Sensor for nano gold particles and preparation method thereof

Abstract

The invention provides a sensor for nano gold particles and a preparation method thereof. The end surface of a multi-core optical fiber is of a conical-platform structure; a total-reflection film is plated on the surface of the conical platform; the nano gold particles which are distributed regularly are fixed on the end surface of the optical fiber plated with the total-reflection film; exciting light is injected into one fiber core of the multi-core optical fiber, is reflected to the end surface of the optical fiber at the film-plated position of the conical platform and generates total internal reflection on the end surface of the optical fiber, and a generated evanescent field excites a localized surface plasmon resonance effect of the nano gold particles; the reflected light is collected by the fiber core symmetrical to the fiber core injected with the exciting light, and the change of the physical quantity of external substances is sensed by the spectrum of the reflecting light. The sensor and the preparation method have the advantages that the multi-core optical fiber, a self-assembly technology of a near-field optical tweezer and the localized surface plasmon resonance effect of the nano gold particles are combined, and the near-field optical tweezer of the multi-core optical fiber can be utilized for capturing the nano gold particles, so that the optical self-assembly and regular distribution is carried out on the nano gold particles according to the distribution rule of the capturing areas; the structure is simple, the volume is smaller and the repeatability is high.

Description

technical field [0001] The invention relates to an optical fiber sensor, and also relates to a preparation method of the optical fiber sensor. Specifically, it is a nano-gold particle sensor and a manufacturing method thereof. Background technique [0002] Nano-gold particles refer to tiny particles of gold with a diameter of 1-100 nm, which are generally dispersed in hydrosol. As early as the Middle Ages, gold nanoparticles have been valued by people because of their unique optical properties. Gold nanoparticles can selectively absorb specific wavelengths of visible light and present colorful colors. Nanogold materials have specific surface effects, quantum size effects, and macroscopic quantum tunneling effects, and have superior properties that conventional materials do not have in terms of electrical, magnetic, optical, and chemical properties. Therefore, it has broad application prospects in catalysis, electronic materials, micro devices, reinforcement materials and s...

AI Technical Summary

Problems solved by technology

Nano-gold particle modification also has the problem of complicated methods and difficult to ensure consistency in the air holes of photonic crystal fibers

[0009] In general, nano-gold particle sensors can be realized by the above methods, but they all have the disadvantages of low excitation efficiency, low repeatability, and complicated methods.

When using multi-mode optical fiber to modify the end surface of gold n

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