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Project title: Atomistic Simulations of Surface Chemistry underpinning the Atomic-Scale Processing of Materials for AI-driven Nanoelectronics Applications Supervisor: Dr. Bora Karasulu (Assistant
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Funding Source: Industry Eligibility: Available to eligible Home fee status and UK domicile EU students Start Date: Ongoing Course: MPhil/PhD Project Overview Rubbers are ubiquitous materials in modern society and have played important roles across industries. As the key component to connecting...
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Supervisors: Dr. Ferran Brosa Planella, Dr. Radu Cimpeanu, Prof. Louis Piper Summary: Manufacturing not only has a significant impact on battery performance and lifetime, but also on cost and environmental impact. A key process (yet not a well-studied one) is the so-called filling, in which a...
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. The need to predict the transition state structure as input for quantum chemical barrier predictions adds further complications. Machine learning (ML) models of quantum chemistry can achieve fast and
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Supervisors: Supervisors: Dr. Albert Bartok-Partay (Physics), Prof. James Kermode (Engineering), Dr Livia Bartok-Partay (Chemistry) Summary: In high-performance applications such as aerospace and
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Supervisors: Supervisors: Phillip Stansfeld (Chemistry) and Livia Bartok Partay (Chemistry) Summary: The bacterial cell envelope is the front-line to killing drug-resistant, pathogenic bacteria
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experience of working in industry and understanding working practices in different cultures. Candidate Requirements: Good degree (2.1 or 1st class) in Chemistry. Must be willing to work independently and as
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’ qualification (MSc) in a science and technology field such as Metallurgy, Chemistry, Chemical Engineering, Physics, Materials Science and Engineering, Manufacturing. A passion and enthusiasm to challenge
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immunotherapies to fight diseases such as cancer. We are currently advertising a PhD position in this area (funded by an EPSRC DTP Studentship) in the Dept. of Chemistry at Warwick co-supervised by Dr Ann Dixon and
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Number of Opportunities Available: 1 fully funded place Supervisors: Dr. Bora Karasulu (Chemistry), Dr. Albert Bartok-Partay (Physics) Summary: Solar modules incorporating lead-halide perovskites