Abstract

In recent years, people are committed to developing new technologies and technologies for energy storage and conversion, environmental detection, high-performance sensors and energy security, and other aspects of the increasingly prominent problems in the field of environmental and biosafety. The purpose of this paper is to explore the manufacturing system and automatic synthesis equipment of carbon nanomaterials, understand the control device and control method, and analyze the structure and morphology characteristics of three kinds of carbon nanomaterials produced by carbon nanomaterial manufacturing system by X-ray diffraction and infrared spectroscopy. The results show that the carbon nanomaterial manufacturing system and automatic synthesis system in this paper solve the problems of high cost, low efficiency, and small scale of the existing carbon nanomaterials manufacturing and achieve the precision control of automatic production, so that the productivity is increased by 20%–35%, and the cost is reduced by 15%–30%. Therefore, they are widely used in the fields of science and technology, environmental protection, and intelligent manufacturing broad prospects. Carbon nanotube manufacturing equipment and automatic synthesis equipment have great production advantages, which can greatly improve the quality and efficiency of carbon nanomaterials. UPY, GO, and UGO carbon nanomaterials produced by carbon nanotube manufacturing equipment are not easy to fall off from the materials. When the wavelength is 500 nm, the absorption frequency of the three materials is the largest. With the extension of the spectral wavelength, the absorption frequency of the three materials is reduced by 52%, 33%, and 34.7%, respectively.

Highlights

  • In recent years, due to the increasingly prominent problems in the field of energy security, environment, and biosecurity, people are committed to solving these severe challenges and research and development for energy storage and conversion, environmental detection, performance sensors, and other aspects

  • Lee demonstrated the method of using a solution plasma system to produce low-dimensional carbon nanomaterials and its application in flexible conductive paper and compared and studied the effects of graphite rod diameter and ferritin molecular concentration on the production of carbon nanomaterials, and it is verified that carbon nanotubes can be synthesized in this way [3]

  • This study introduces a set of the intelligent control system for high-throughput nanomaterial synthesis and mainly introduces the control device of automatic synthesis equipment and the control method of each reaction, equipped with an electromagnetic stirrer and electric heating module, which are independent of rotational speed, temperature control, and six bidirectional monomer feeding peristaltic pumps. e Cartesian robot is responsible for the reagent injection, accurate movement to the reaction, the reaction of stirring speed, temperature, and the amount of each reagent which is controlled by the computer and realtime detection [11]

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Summary

Gaoxiang Lou and Zongyan Cai

E results show that the carbon nanomaterial manufacturing system and automatic synthesis system in this paper solve the problems of high cost, low efficiency, and small scale of the existing carbon nanomaterials manufacturing and achieve the precision control of automatic production, so that the productivity is increased by 20%–35%, and the cost is reduced by 15%–30%. Carbon nanotube manufacturing equipment and automatic synthesis equipment have great production advantages, which can greatly improve the quality and efficiency of carbon nanomaterials. UPY, GO, and UGO carbon nanomaterials produced by carbon nanotube manufacturing equipment are not easy to fall off from the materials. When the wavelength is 500 nm, the absorption frequency of the three materials is the largest. With the extension of the spectral wavelength, the absorption frequency of the three materials is reduced by 52%, 33%, and 34.7%, respectively

Introduction
Results and Discussion
UPY GO UGO
Relative pressure
Different parameters
UPY GO
Full Text
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