Quantum Device Modelling
Research Overview
Quantum Engineering of Advanced Materials and Devices
- Nanoscale material modelling and discovery i.e. Electronic, vibrational and magnetic structures; Quantum, phonon and spin transport; Environmental effects on transport e.g. biological interaction, chemical stimulus, electrochemical gating, photo effect, temperature gradient, electric and magnetic field effect
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Molecular electronics i.e. Quantum and phonon interference; Energy harvesting e.g. Thermoelectricity and Piezoelectricity; Biological sensing; Transistors; Spintronic; Optoelectronics; Molecular electronic building blocks i.e. switches, transistors and rectifiers
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One and two dimensional materials i.e. Single molecules and clusters; Self assembled monolayers; Van-der Waals heterostructures; 2D materials; Graphene nanojunctions; Carbon nanotubes; Molecular graphene nanoribbons
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Multiscale modelling i.e. Density functional theory; Computational quantum chemistry; Tight-binding modelling; Molecular dynamics; Quantum transport
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GOLLUM: We co-develop the next generation uantum transport simulation tool: GOLLUMLink opens in a new window
Open Positions
We are looking for highly motivated Postdoctoral researchers and PhD students. See Vacancies for available positions.
Contact
Email: Hatef.Sadeghi@warwick.ac.uk
Phone: +44 (0) 24 7657 4565
Group web: www.nanolab.ukLink opens in a new window
Address: School of Engineering, University of Warwick, CV4 7AL Coventry, United Kingdom
FST Podcast: All things Quantum with Prof. Hatef Sadeghi