Tenure Track Postdoctoral Position
- Czech Technical University in Prague, Department of Control Engineering
- Prague, Czech Republic
- 2,800 EUR per month
- Closing date
- 15 Jun 2023
- Computational science & software engineering, Condensed matter, Materials science
- Job type
- Academic: faculty
“Ab initio study on photocatalytic activity of van der Waals heterostructures”
Applications are invited for postdoctoral researchers in the Advanced Materials Group (AMG) at the Department of Control Engineering, Faculty of Electrical Engineering, Czech Technical University in Prague, to work on the “Ab initio study on photocatalytic activity of van der Waals heterostructures”, under the supervision of Dr. Antonio Cammarata. AMG is a well-established group and consists of dynamic and motivated researchers leading international collaborations on broad interdisciplinary topics.
Low dimensional materials like layered van der Waals heterostructures are promising photocatalysts thanks to their easily tunable optoelectronic properties. The layer binding occurs thanks to the van der Waals forces, allowing the creation of a wide range of heterostructures which can be tailored to meet the prerequisite of a photocatalyst. However, designing an ideal heterostructure is certainly not a simple task because the chosen materials must fulfill some requirements; among others, an important requirement is that the valence band maximum and conduction band minimum must come from dissimilar elements, and the ideal band alignment is type-II. In this respect, the project goal is to design optimal heterostructures for photocatalysis applications. Ab initio molecular dynamic simulations will be employed to check the thermal stability of selected compounds in operative conditions. Static quantum mechanical calculations will be used to characterize the charge transfer, the electronic structure and the optical activity in terms of the chemical composition and the stacking geometry. The intermediate outcomes will guide the creation of further heterostructures possibly containing dopant species which will enhance the optical activity of the parent materials. The research will be carried out thanks to the access to High Performance Computing (HPC) centers.
For further details, the candidate may contact Dr. Antonio Cammarata (email@example.com), ORCID no. 0000-0002-5691-0682
Essential: Successful candidates must have a PhD in Physics, Chemistry, Materials Science or a closely related discipline obtained in 2016 or later. A strong background in solid-state density functional theory is mandatory. Experience in using large-scaling DFT methods represents a great advantage. At least 3 impacted publications as a main author are expected. Excellent oral and written communication skills in English are mandatory.
Desirable: Programming experience in widely-used scientific languages (Fortran, C, C++) together with knowledge of shell scripting in a UNIX environment. perform calculations on Linux-based HPC architectures.
The positions will be available initially for two years. Based on performance and follow-up funding, the candidate will be offered an assistant professor position. The salary starts at 65000 CZK (~ 2800 EUR) gross per month with additional benefits, including 6 weeks of paid holidays.
How to apply
The call is open immediately and applications are received until 15.6.2023. The expected starting date is 1.10.2023, but we can also accept later starts. Your application must include a letter of motivation (up to 2 pages), structured CV (up to 4 pages), list of publications, reference contacts, proof of completed PhD and a cover letter (more details at https://international.cvut.cz/jobs-at-ctu/postdoc). Please direct all correspondence to firstname.lastname@example.org and to email@example.com; as email subject, please specify “application for postdoctoral position in ab initio on photocatalysis”.
Antonio Cammarata obtained his PhD at the Università degli Studi di Palermo (Italy). He then moved to Philadelphia (US) to work as post-doctoral researcher at the Drexel University, where he also served as recitation instructor in "Fundamental of Materials" course and mentored students. He investigated on charge-ordering in Perovskites, hybrid-improper ferroelectricity of Ruddelsden-Popper phases, Second Harmonic generation in nonlinear optically active materials among other reasearch projects. Such activities produced in parallel new universal theoretical frameworks, like a new definition of bond covalency and electro-structural rules to design new materials with tunable metal-insulator transition or with enhanced nonlinear optical response. In the period 2014-2016, he worked as post-doctoral researcher in the Advanced Materials Group at the Department of Control Engineering of Czech Technical University in Prague (Czech Republic). He is now involved in the ab-initio investigation of nanostructured materials for applications in the field of tribology, optics, electronics and energy harvesting/saving. He developed a new lattice-dynamic metric named "cophonicity" able to capture the electro-vibrational coupling and to guide the design of new materials. In June 2016 he has been appointed as Assistant Professor at the Department of Control Engineering of Czech Technical University in Prague (Czech Republic), where he currently works.
Karlovo Náměstí, 13
Get job alerts
Create a job alert and receive personalised job recommendations straight to your inbox.Create alert