Morton, J. A., Eskin, D. G., Grobert, N., Mi, J., Porfyrakis, K., Prentice, P. and Tzanakis, I. (2021) Effect of temperature and acoustic pressure during ultrasound liquid-phase processing of graphite in water. JOM, 73(12), pp. 3745-3752. (doi: 10.1007/s11837-021-04910-9)
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Abstract
Ultrasound-assisted liquid-phase exfoliation is a promising method for manufacturing two-dimensional materials. Understanding the effect of ultrasonication parameters such as the temperature and input power on the developed pressure field is pivotal for optimization of the process. Limited research has been carried out to determine the optimal temperature for exfoliation, with some data generating disputed results. Simply maximizing the sonication power does not necessarily produce a higher yield because of shielding. In this study, a high-temperature calibrated cavitometer was used to measure the acoustic pressure generated in different graphite solutions in deionized water at various temperatures (from 10°C to 70°C) and input power conditions (from 20% to 100%). In addition, high-speed optical imaging provided insight on the shock wave generation from transient bubble collapses under different sonication conditions. The optimal sono-exfoliation parameters were determined to be 20% input power at 10°C for graphite flake solution, and 100% input power at 40°C to 50°C for graphite powder solution.
Item Type: | Articles |
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Additional Information: | This work has been funded by the UK Engineering and Physical Sciences Research Council (EPSRC) to the project “Sustainable and industrially scalable ultrasonic liquid phase exfoliation technologies for manufacturing 2D advanced functional materials” (EcoUltra2D), with grant nos. EP/R031665/1; EP/R031401/1; EP/R031819/1; EP/R031975/1. |
Status: | Published |
Refereed: | Yes |
Glasgow Author(s) Enlighten ID: | Prentice, Dr Paul |
Authors: | Morton, J. A., Eskin, D. G., Grobert, N., Mi, J., Porfyrakis, K., Prentice, P., and Tzanakis, I. |
College/School: | College of Science and Engineering > School of Engineering > Systems Power and Energy |
Journal Name: | JOM |
Publisher: | Springer |
ISSN: | 1047-4838 |
ISSN (Online): | 1543-1851 |
Published Online: | 26 October 2021 |
Copyright Holders: | Copyright © 2021 The Authors |
First Published: | First published in JOM 73(12): 3745-3752 |
Publisher Policy: | Reproduced under a Creative Commons Licence |
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