Funded Studentship: Optimising the nanoscale behaviour of novel materials for energy applications
- Bursary plus tuition fees (UK/ EU/ International)
- June 28, 2019
The preparation of advanced material compositions has led to a wide range of applications. The contribution of smart materials, i.e. materials that can be manipulated by external stimuli, can provide new solutions in the nanoscale to address challenges in industrial sectors, e.g aerospace, robotics, automotive, and electronics. This project aims to understand and optimise the behaviour of a material at the nanoscale by studying the doping and defect processes and controlling the diffusion of novel smart materials, specifically for energy¬ related applications.
This study is vital for the development of twodimensional (2D), MXenes, based energy devices. MXenes are a few atoms thick exhibiting metallic conductivities. The examination and optimisation of the nanostructuring of such smart materials, will improve their efficiency for energy storage and power capacity, and increase their safety.
Finally, this study is appropriate for applications in crucial industrial sectors where the risk must be reduced to the lowest available level, as well as, for automotive applications and mobile phone batteries where the devices are very close to people and possible failure can cause injuries.
- Supervisor: Dr Stavros Christopoulos
- A minimum of a 2:1 first degree in a relevant discipline/subject area with a minimum 60% mark in the project element or equivalent with a minimum 60% overall module average
- Plus the potential to engage in innovative research and to complete the PhD within a 3.5 years
- A minimum of English language proficiency (IELTS overall minimum score of 7.0 with a minimum of 6.5 in each component)
Please read a complete list of requirements on the University's website.
The TOEFL® test is a popular option for students to meet the English-language requirements for scholarships.
The Lloyd's Register Foundation International Consortium of Nanotechnologies (LRF-ICON) grant and the Coventry University will cover the following expenses: stipend, fees, consumables, travel, access to HPC.
The successful candidate will receive comprehensive research training including technical, personal and professional skills.
All researchers at Coventry University (from PhD to Professor) are part of the Doctoral College and Centre for Research Capability and Development, which provides support with high-quality training and career development activities.
To find out more about the project please contact Stavros Christopoulos.
All applications require full supporting documentation, a covering letter, plus a 2000-word supporting statement showing how the applicant’s expertise and interests are relevant to the project.
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