Professor Jiawei Mi's Projects (7)

Development of ultrasound enabled highly efficient technologies for hydrogen production and storage Oct 1, 2023 - Mar 31, 2027
This is a fully funded international PhD Studentship with a total fund of 7,239,369 Philippine peso (~£103,780) for a duration of 3 years 7 months, i.e., from 10 September 2023 to 15 April 2027.

This PhD Studentship is awarded to Mr Khareljoy Sung... Read More about Development of ultrasound enabled highly efficient technologies for hydrogen production and storage.

Wolfson Equipment bid 2023 - Confocal Imaging ZEISS Elyra 7 with Lattice SIM² Oct 1, 2024 - Sep 30, 2029

Development of a Cloud Computing Based Processing Simulation System for Non-ferrous Metal Alloys May 23, 2022 - Sep 30, 2025
The project is funded by the Yun Nan Provincial Government International Collaboration fund, supporting the research and activities for developing a cloud computing-based processing simulation and modeling system for the manufacturing of non-ferrous... Read More about Development of a Cloud Computing Based Processing Simulation System for Non-ferrous Metal Alloys.

UKRI Covid 19 Extension Pot - Sustainable and industrially scalable ultrasonic liquid phase exfoliation technologies for manufacturing 2D advanced functional materials Jul 1, 2020 - Sep 30, 2021

Development of efficient & scalable ultrasound-assisted solidification technologies for metal alloys Sep 1, 2014 - Nov 21, 2017
This proposal is timely addressing the urgent need of the metal materials and manufacture industry to search and adopt next-generation, step-change technologies to manufacture primary ingots or shaped components with improved mechanical properties, l... Read More about Development of efficient & scalable ultrasound-assisted solidification technologies for metal alloys.

Experimental study of novel melt-processing methods for recycled aluminium alloys Feb 1, 2016 - Aug 1, 2019
Proposal Summary: The proposal is for a 3.5 year PhD studentship jointly funded by DLS and the University of Hull. The project will study the fundamentals of separation and neutralisation of multiple impurity elements in recycled aluminium materials... Read More about Experimental study of novel melt-processing methods for recycled aluminium alloys.

Sustainable and industrially scalable ultrasonic liquid phase exfoliation technologies for manufacturing 2D advanced functional materials Oct 1, 2018 - Dec 31, 2022
This project will clarify and establish the fundamental mechanisms of ultrasonic cavitation and streaming in the exfoliation of graphene and other 2D materials at the nanoscale. The outcomes will be the guidelines, protocols, and optimised parameters... Read More about Sustainable and industrially scalable ultrasonic liquid phase exfoliation technologies for manufacturing 2D advanced functional materials.