Nanotube geometric dimension measuring device and method based on photon counting

A technology of photon counting and geometric dimensions, applied in the field of measurement, can solve the problems of high accuracy, low cost, and inability to measure the length of nanotubes, and achieve the effects of high accuracy, low cost, and insufficient measurement range

Inactive Publication Date: 2017-04-26
UNIV OF SHANGHAI FOR SCI & TECH
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Problems solved by technology

[0007] The present invention is carried out in order to solve the above problems, and the purpose is to provide a method that can not only make up for the insufficient measurement range of depolarized dynamic light scattering, but also solve the shortcoming that Raman spectroscopy cannot measure the length of nanotubes, and has fast measurement, low cost, Device and method for measuring nanotube geometric dimensions based on photon counting with high precision

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  • Nanotube geometric dimension measuring device and method based on photon counting
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  • Nanotube geometric dimension measuring device and method based on photon counting

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Embodiment Construction

[0033] In order to make the technical means, creative features, goals and effects achieved by the present invention easy to understand, the following embodiments will specifically illustrate the photon counting-based nanotube geometric dimension measurement device and method of the present invention in conjunction with the accompanying drawings.

[0034] figure 1 It is a structural schematic diagram of a nanotube geometric dimension measurement device based on photon counting in an embodiment of the present invention.

[0035] Such as figure 1 As shown, in this embodiment, the nanotube geometric dimension measurement device 100 based on photon counting is used to measure the diameter and length of the nanotubes in the solution in the sample cell 200, and it includes a beam focusing unit 10, two pairs of small holes plate 20 , Raman scattering unit 30 , depolarization dynamic scattering unit 40 and information analysis and processing unit 50 .

[0036] The beam focusing unit ...

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Abstract

The invention provides a nanotube geometric dimension measuring device and method based on photon counting, and is characterized in that the measuring device includes a light beam focusing unit that includes a light source and a lens, a Raman scattering unit that includes an optical filtering component and a first photoelectric conversion element, a depolarization dynamic scattering unit that includes a beam splitter prism, a second photoelectric conversion element and a third photoelectric conversion element, and an information analysis and processing unit that includes a photon counting card used for counting electric pulse signals to obtain a count value and a computer connected with the photon counting card and processes and analyzes the count value to obtain the diameter and length of a nanotube. The nanotube geometric dimension measuring device and method based on photon counting combines a depolarization dynamic scattering method with a Raman spectrum method, can not only make up for the defect that the depolarization dynamic light scattering measuring range is insufficient, but can also overcome the defect that the Raman spectrum method cannot measure the length of a nanotube, and is fast in measurement, low in cost and high in accuracy.

Description

technical field [0001] The invention relates to a measurement technology, in particular to a photon counting-based nanotube geometric size measurement device and method. Background technique [0002] Nanotubes have good electronic properties, mechanical properties, thermal properties, mechanical properties, and optical properties. They have broad application prospects in many fields such as medical science, medical equipment, microelectronics preparation, instrument manufacturing, and polymer development. The excellent characteristics of nanotubes are directly related to the diameter and length of nanotubes. Therefore, the research on nanotube diameter and length measurement is of great significance. [0003] At present, the measurement methods of nanotube diameter and length mainly adopt the following methods: [0004] Technical measurement methods based on microscope imaging, including: transmission electron microscope (TEM), atomic force microscope (AFM), etc. The char...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01B11/02G01B11/08
CPCG01B11/02G01B11/08
Inventor 曹坤武杨晖
Owner UNIV OF SHANGHAI FOR SCI & TECH
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