The University of Nottingham invites applications for the position of Research Associate/Fellow to contribute to the development of a Digital Materials Discovery Lab. This initiative focuses on advancing the next generation of ceramics for thermal and environmental barrier coatings, particularly for aerospace and space applications. Candidates may specialize in either the experimental aspects or computational modeling facilitated by machine learning.
OPPORTUNITY AT A GLANCE:
Category | Details |
---|---|
Position | Research Associate/Fellow |
Focus Area | Development of a Digital Materials Discovery Lab, focusing on ceramics for thermal and environmental barrier coatings in aerospace and space applications. |
Eligibility | – Excellent understanding of motor controllers, machine learning, and Python programming skills. |
– PhD is preferable (minimum starting salary for PhD holders: £33,966). | |
Specialization | Candidates may specialize in either experimental aspects or computational modeling facilitated by machine learning. |
Open To | Candidates from the UK, Europe, and globally (support available for international colleagues relocating to the UK). |
Key Responsibilities | – Develop new coatings using high-throughput materials discovery and computational techniques. |
– Integrate Materials Discovery Apparatus with high-temperature furnace and plasma spray technology. | |
– Use active learning, Bayesian optimisation, and Graph Neural Networks in research. | |
– Collaborate with industrial and academic partners in an EPSRC-funded project. | |
– Contribute to peer-reviewed publications and industrial applications. | |
Workload | 50-50 split between machine learning and automation tasks. |
Application Process | Apply online through the University of Nottingham’s job portal. |
Contact for Inquiries | Prof Tanvir Hussain (for informal inquiries; direct applications to this email will not be accepted). |
Application Deadline | Monday, 26 August 2024. |
Fact About University of Nottingham
- Pioneers in Aerospace Ceramics: The University of Nottingham is at the forefront of developing the next generation of ceramics for aerospace and space applications. Their innovative work in creating thermal and environmental barrier coatings could revolutionize space exploration by enhancing the durability and performance of spacecraft materials.
- Digital Materials Discovery Lab: Nottingham is launching a cutting-edge Digital Materials Discovery Lab, a groundbreaking initiative that merges experimental research with computational modeling powered by machine learning. This fusion of disciplines is set to redefine how we discover and develop advanced materials, potentially accelerating innovations in numerous fields.
- Global Research Impact: The university’s contributions to ceramics and materials science are not just academic—they’re shaping the future of aerospace technology on a global scale. Their research has the potential to impact everything from the safety of space missions to the efficiency of jet engines.
- Multidisciplinary Expertise: Nottingham encourages a unique blend of expertise, inviting researchers to specialize either in hands-on experimental techniques or in computational modeling. This multidisciplinary approach ensures a holistic understanding of material behaviors, paving the way for more comprehensive scientific breakthroughs.
- Internationally Renowned: The University of Nottingham is recognized worldwide for its excellence in research, particularly in engineering and materials science. Their initiatives attract top talent from across the globe, solidifying their reputation as a hub for groundbreaking research and innovation.
- Commitment to Sustainability: The university’s focus on advanced ceramics for thermal and environmental barriers aligns with global efforts to create more sustainable technologies. Their research could lead to more environmentally friendly aerospace solutions, reducing the carbon footprint of the aviation industry.
- State-of-the-Art Facilities: Nottingham boasts state-of-the-art research facilities, equipped with the latest technology to support advanced materials research. These world-class resources empower researchers to push the boundaries of what’s possible in materials science.
- Collaborative Research Environment: The university fosters a collaborative environment where experts from different fields come together to tackle complex challenges. This synergy of knowledge and ideas drives innovation and ensures that Nottingham remains at the cutting edge of scientific discovery.
Eligibility For 2024 Fellowship in Materials Discovery, University of Nottingham
- Candidates should have an excellent understanding of motor controllers, machine learning, and Python programming skills.
- A relevant PhD is preferable, minimum starting salary for those with a PhD is £33,966.
- Open to candidates from the UK, Europe, and globally, with support available for international colleagues relocating to the UK.
Description For 2024 Fellowship in Materials Discovery, University of Nottingham
- Develop new coatings using high-throughput materials discovery and computational techniques.
- Integrate a high-throughput Materials Discovery Apparatus (MDA) with a batch processing high-temperature furnace and plasma spray technology.
- Employ active learning, Bayesian optimisation, and Graph Neural Networks in research.
- Collaborate with a team of industrial and academic partners as part of an EPSRC-funded project.
- Work involves a 50-50 split between machine learning and automation tasks.
- Contribute to peer-reviewed publications and potential industrial applications.
How To Apply For 2024 Fellowship in Materials Discovery, University of Nottingham
- Interested candidates should apply online through the University of Nottingham’s job portal.
- For informal inquiries, contact Prof Tanvir Hussain via email or phone. Note that applications sent directly to this email address will not be accepted.
Last Date To Apply is Monday 26 August, 2024.