Sustainable and industrially scalable ultrasonic liquid phase exfoliation technologies for manufacturing 2D advanced functional materials (EcoUltra2D)
Lead Research Organisation:
University of Oxford
Department Name: Materials
Abstract
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Organisations
Publications
Jones R
(2020)
Synthesis, characterisation and applications of core-shell carbon-hexagonal boron nitride nanotubes
in Nanoscale Advances
Kaur A
(2022)
Temperature as a key parameter for graphene sono-exfoliation in water.
in Ultrasonics sonochemistry
Khavari M
(2023)
Cavitation-induced shock wave behaviour in different liquids.
in Ultrasonics sonochemistry
Khavari M
(2021)
Scale up design study on process vessel dimensions for ultrasonic processing of water and liquid aluminium.
in Ultrasonics sonochemistry
Khavari M
(2021)
Characterization of shock waves in power ultrasound
in Journal of Fluid Mechanics
Morton J
(2023)
Dual frequency ultrasonic cavitation in various liquids: High-speed imaging and acoustic pressure measurements
in Physics of Fluids
Morton J
(2021)
New insights into sono-exfoliation mechanisms of graphite: In situ high-speed imaging studies and acoustic measurements
in Materials Today
Morton J
(2022)
An Eco-Friendly Solution for Liquid Phase Exfoliation of Graphite Under Optimised Ultrasonication Conditions
in SSRN Electronic Journal
Description | Study parameters necessary to assess the materials produced within the consortium have been identified. This step was essential before embarking on further research. |
Exploitation Route | The eco-friendly processing of graphene is of importance for a wider range of applications where current graphene production methods fail to deliver. |
Sectors | Aerospace Defence and Marine Chemicals Energy Environment Manufacturing including Industrial Biotechology |