PhD Studentship in Electronics Engineering (University of Nottingham)

Area: Engineering Location: UK (Other) Closing Date: Friday, 01 May 2026 Reference: ENG320 Overview This exciting opportunity is based within the Power Electronics and Machines Control Research Centre at the University of Nottingham Faculty of Engineering, which conducts cutting-edge research into power electronics for energy management and decarbonization. Vision We are seeking a PhD student motivated and passionate about the design and control of power electronics technologies that make real-world impact. Together, we aim to advance compact, reliable, and economical energy management systems (EMS) for homes. Motivation The UK is moving rapidly towards its net-zero emissions goal by 2050, with over 10 million electric vehicles (EVs) projected to be on the roads. The challenge: how do we sustainably power all these vehicles without overloading the energy grid? The solution lies in renewable-assisted home Energy Management Systems (EMS) that integrate solar power, EVs, and single-phase mains. By dynamically managing energy flow, a home EMS ensures that solar energy is preferentially used for EV charging, supports the grid, and allows energy to flow from vehicles back to the mains when needed. Current EMS solutions are hindered by high costs, inefficiencies, and bulky components. This PhD project focuses on the development of next-generation high-power-density EMS, enabling a more compact and efficient energy ecosystem where EVs do not just consume energy—they help drive the future of home energy in the UK. Aim You will develop an innovative EMS design that addresses existing challenges by: Reducing costs and minimizing physical footprint Ensuring compliance with safety standards Solving high-power-density design challenges including electromagnetic interference, thermal management, active power pulsations, and magnetics optimization You will work with Dr. Tabish Mir and Dr. Alan Watson at the University of Nottingham’s Power Electronics and Machines Centre (PEMC), a purpose-built £18M facility at Jubilee Campus, globally recognized as a leading institute in the field. Candidate Requirements We are looking for candidates with: A first-class undergraduate degree in Electrical and/or Electronics Engineering (UK equivalent) A master’s degree in Electrical Engineering (particularly Power Electronics and/or Electric Drives) is desirable (preferably first-class, UK equivalent) Knowledge of simulation platforms such as MATLAB Simulink/PLECS Coding and hardware skills are desirable Strong analytical and mathematical skills Passion for research and willingness to learn Good presentation, communication, and writing skills Funding Support Funding will be sought from the University of Nottingham after a suitable candidate is found, covering home tuition fees and UKRI stipend Environment and Training The Faculty of Engineering fosters a thriving PGR community Access to Researcher Academy’s Training Programme and bespoke courses for engineering PGRs Training on paper writing, networking, and career development Collaboration with leading industrial partners Application Please contact Dr. Tabish Mir with your CV and supporting statement to apply for this project: Email: tabish.mir@nottingham.ac.uk If you apply for this position please say you saw it on Engineeroxy

Area: Engineering
Location: UK (Other)
Closing Date: Friday, 01 May 2026
Reference: ENG320

Overview

This exciting opportunity is based within the Power Electronics and Machines Control Research Centre at the University of Nottingham Faculty of Engineering, which conducts cutting-edge research into power electronics for energy management and decarbonization.

Vision

We are seeking a PhD student motivated and passionate about the design and control of power electronics technologies that make real-world impact. Together, we aim to advance compact, reliable, and economical energy management systems (EMS) for homes.

Motivation

The UK is moving rapidly towards its net-zero emissions goal by 2050, with over 10 million electric vehicles (EVs) projected to be on the roads. The challenge: how do we sustainably power all these vehicles without overloading the energy grid?

The solution lies in renewable-assisted home Energy Management Systems (EMS) that integrate solar power, EVs, and single-phase mains. By dynamically managing energy flow, a home EMS ensures that solar energy is preferentially used for EV charging, supports the grid, and allows energy to flow from vehicles back to the mains when needed.

Current EMS solutions are hindered by high costs, inefficiencies, and bulky components. This PhD project focuses on the development of next-generation high-power-density EMS, enabling a more compact and efficient energy ecosystem where EVs do not just consume energy—they help drive the future of home energy in the UK.

Aim

You will develop an innovative EMS design that addresses existing challenges by:

Reducing costs and minimizing physical footprint
Ensuring compliance with safety standards
Solving high-power-density design challenges including electromagnetic interference, thermal management, active power pulsations, and magnetics optimization

You will work with Dr. Tabish Mir and Dr. Alan Watson at the University of Nottingham’s Power Electronics and Machines Centre (PEMC), a purpose-built £18M facility at Jubilee Campus, globally recognized as a leading institute in the field.

Candidate Requirements

We are looking for candidates with:

A first-class undergraduate degree in Electrical and/or Electronics Engineering (UK equivalent)
A master’s degree in Electrical Engineering (particularly Power Electronics and/or Electric Drives) is desirable (preferably first-class, UK equivalent)
Knowledge of simulation platforms such as MATLAB Simulink/PLECS
Coding and hardware skills are desirable
Strong analytical and mathematical skills
Passion for research and willingness to learn
Good presentation, communication, and writing skills

Funding Support

Funding will be sought from the University of Nottingham after a suitable candidate is found, covering home tuition fees and UKRI stipend

Environment and Training

The Faculty of Engineering fosters a thriving PGR community
Access to Researcher Academy’s Training Programme and bespoke courses for engineering PGRs
Training on paper writing, networking, and career development
Collaboration with leading industrial partners