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Geometry vs. Dielectric Permittivity – admission in physics

Ryszard Knapek — Thu, 18 Dec 2025 09:03:49 +0000

Call for scholarship applications

Position: PhD candidate in the discipline of Physical Sciences
Project host institution: Faculty of Science and Technology, August Chełkowski Institute of Physics, University of Silesia in Katowice
Doctoral training unit: Doctoral School at the University of Silesia in Katowice

PhD candidate responsibilities: The PhD candidate will conduct low- and high-pressure dielectric investigations of hybrid materials that are the subject of the grant project, including analysis, interpretation, and presentation of the obtained research data in the form of scientific publications and oral presentations.

The research will be carried out under the supervision of prof. dr hab. Sebastian Pawlus within the project entitled: “Geometry vs. Dielectric Permittivity: Exploring First-Order Phase Transition Dynamics in Switchable Dielectrics”, OPUS 28 (NCN), project no. 2024/55/B/ST3/01250.

Duration of doctoral education: 48 months

Scholarship amount: PLN 4,269.81 gross before the mid-term evaluation / PLN 5,550.81 gross after the mid-term evaluation

Requirements: A Master’s degree in physics, chemistry, materials engineering, or a related field.

Required documents:

Motivation letter describing research interests and career objectives.
Curriculum vitae (CV).
Copy of the Master’s degree diploma (or official confirmation of degree completion if the diploma has not yet been issued).
Letter of recommendation from the Master’s thesis supervisor.
List of scientific achievements (e.g. participation in scientific conferences, publications – if applicable).

The required documents should be submitted by 9 January 2026 to the following e-mail address: sebastian.pawlus@us.edu.pl.

By the same deadline, candidates are required to register in the IRK recruitment system and select the option “Recruitment to the Doctoral School of the University of Silesia in Katowice – RECRUITMENT FOR PROJECTS”, and then choose the project “Geometry and dielectric permittivity…” from the list.

Direct link:
https://irk.us.edu.pl/pl/offer/SD-GRANT-2025/programme/20-S3SPIT_ST301250/

If you have any questions prior to submitting a formal application, please contact the grant project leader at the e-mail address provided above. For technical questions regarding registration or doctoral training at the Doctoral School, please contact: szkola.doktorska@us.edu.pl.

The documentation submitted by candidates will be evaluated by a selection committee chaired by the project leader. The recruitment process will be conducted in accordance with the relevant NCN regulations. The recruitment procedure may be carried out in Polish or in English.

The online interview will take place on 16 January 2026. The committee’s decision will be communicated to candidates via the IRK recruitment system by 23 January 2026.

Offer description: As part of the implementation of the OPUS 28 grant project funded by the National Science Centre (NCN), Poland, the PhD candidate will have the opportunity to participate in research on metal–organic hybrid materials belonging to the class of so-called switchable dielectrics. These materials are currently at the forefront of modern scientific research due to their application potential, for example in electronics and photovoltaics, particularly in thin-film systems with micro- and nanometer-scale thicknesses. In such systems, mechanical stresses, induced for example by temperature variations, can dramatically alter system parameters, such as the temperature at which switching of electrical properties occurs.

Within the scope of the project, the PhD candidate will stimulate the formation of such stresses by generating controlled high-pressure conditions, in order to determine how the properties of the investigated materials change. The primary experimental technique will be broadband dielectric spectroscopy. The PhD candidate will also have the opportunity to become familiar with and apply unique high-pressure research techniques available at the Institute of Physics of the University of Silesia.

The obtained results will be disseminated in scientific articles and presented at international conferences in Poland and abroad.

As the project is conducted in consortium with Wrocław University of Science and Technology, the PhD candidate will have the opportunity to collaborate with researchers and doctoral students from that institution.

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Call for applications – scholarship in physical sciences

Ryszard Knapek — Tue, 29 Jun 2021 07:36:16 +0000

Call for applications

scholarship in physical sciences

Position: PhD student in physics discipline

Unit of the project realization: Faculty of Science and Technology – University of Silesia in Katowice

Unit realizing the PhD student education: Doctoral School at the University of Silesia in Katowice

The scholarship applies to theoretical research of molecular friction of polymers in dilute and concentrated solutions. The main tool of research are molecular dynamics simulations.

The research will be carry out within the project funded by the National Center Science: “Molecular spectroscopy of polymer chains” (2019/35/O/ST3/00936) under supervision of dr. hab. Jarosław Paturej, prof. UŚ. The research is a collaboration work between the University of Silesia and Leibniz Insitute for Polymer Research (IPF) in Dresden (Germany). It is expected from the PhD candidate to carry out some of the research tasks during six month visit at the IPF.

Duration of the scholarship: 48 months

Scholarship amount:

4,266.58 PLN (for the first 24 months),
5,119.89 PLN (for the last 24 months)

Requirements:

Master of science in the field of physics, chemistry or related sciences.
Proficiency in programming language (C, Fortran or Python)
Proficiency in English that allows for publishing research results.
High motivation to carry out research.
Documented scientific track record will an advantage.

Required documents:

Cover letter with description of scientific interests
CV
List of publications
The copy of MSc
Two reference contacts.

Candidates should register in IRK system and select „Doctoral School – admission by grant and implementation doctorate program”.

Documents should be delivered till 16.09 2021 to an e-mail: jaroslaw.paturej@us.edu.pl

In case of any questions, before the formal application please contact to the grant leader for the e-mail address given above.

Documents will be rated by the commission, led by the project leader. Admission will be carried out according to the NCN regulations. Admission can be carried out both in Polish and in English. Meeting will be organized on 20.09 2021 in the Doctoral School office / on-line. Final decision will be sent to candidates via e-mail till 24.09. 2021.

Project description:

Polymers are macromolecular compounds comprised of many repeated elementary subunits called monomers. Polymers are important class of materials belonging to soft condensed matter. Polymers are widespread. Synthetic macromolecules are inevitable ingredients of commonly used materials, including plastics, rubbers, fibers, textiles, resins, glues and many others. Large group of materials which are biological in origin also contains polymers. These are for instance proteins, nucleic acids (DNA) or polysacharides (starch). Of particular importance for polymer sciences is theoretical description of macromolecule conformation, i.e. spatial polymer configuration. Many physical properties are manifestations of the underlying polymer conformation. The main scientific goal of this proposal is to develop simulation models that would improve understanding of the mechanical properties of biological and synthetic polymers by measuring the dynamics (frequency-dependent molecular friction and stiffness) of individual biopolymer and synthetic polymer chains. The dynamics will be determined over a large range of frequencies and length-scales as a function of chemistry of the polymer, types and concentrations of solutes (including polymers), solvent, and tension of the test chain using novel computational multiscale modeling. The dynamics of materials is traditionally characterized by the storage and loss modulus, which are determined from macroscopic measurements of the in-phase and out-of-phase response of materials, such as polymer solutions, melts, networks consisting of large collections of molecules. In this project, we propose to directly measure the microscopic in-phase and out-of-phase response of an individual molecule. The need to understand the properties of individual molecules has stimulated the recent surge in interest in single molecules mechanics methods, such as single molecule atomic force microscopy (AFM), optical trap or magnetic bead methods and the so-called correlation force spectroscopy (CFS). Mechanical spectroscopy provided by the CFS technique allows investigation of polymer modulus (in-phase correlations) and friction (out-of-phase correlations). Polymer friction is the dissipation that occurs when a polymer changes its conformation or position with respect to the surrounding environment. In dilute solution there are two components: intermolecular friction against the solvent and intramolecular friction between segments of the same polymer. Molecular friction provides insights into macroscopic synthetic systems such as oscillatory shear of melts or the friction in thin films. It is also crucial for many biological processes that occur in the crowded environment of the cell, for example the stretching and shearing of DNA that occurs during replication.

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