Oferty pracy w projektach finansowanych przez NCN

Narodowe Centrum Nauki prezentuje bazę ogłoszeń o wolnych stanowiskach pracy przy projektach finansowanych przez Centrum. Narodowe Centrum Nauki nie ponosi odpowiedzialności za treść i wiarygodność przesyłanych ofert pracy.

Uprzejmie informujemy o nowych warunkach zatrudniania osób na stanowiska typu post-doc: limit czasu upływającego od uzyskania stopnia doktora dla aplikujących na te stanowiska kobiet może być przedłużony o 1,5 roku za każde urodzone bądź przysposobione dziecko.

Oferta pracy

Nazwa jednostki: University of Warmia and Mazury in Olsztyn, Faculty of Food SciencesOlsztyn, Inne oferty z tego miasta »
Nazwa stanowiska: PhD student (PhD scholarship)

• Master's degree (or master's degree in engineering) in physics, chemistry, materials science, nanotechnology or biotechnology
• Knowledge of the principles of Nuclear Magnetic Resonance and relaxation processes
• Knowledge in the area of magnetic properties of condensed mater
• Programming skills (preferred tools: MATLAB, ORIGIN)
• Knowledge of English at a level that allows active participation in research and presentation of its results
• Status of a doctoral student (Polish university) or declaration of willingness to apply for admission to the Doctoral School

Opis zadań:

• Analysis of Nuclear Magnetic Resonance experimental data for systems including magnetic nanoparticles
• Participation in the preparation of research papers
• Presentation of scientific results at conferences

Typ konkursu NCN: OPUS – ST
Termin składania ofert: 18 maja 2021, 23:59
Forma składania ofert: email
Warunki zatrudnienia:

AMOUNT: 3790.00 PLN/month
Project coordinator at the University of Warmia and Mazury in Olsztyn :
prof. Dr. hab. Danuta Kruk
PROJECT TITLE: Core-shell nanoparticles - from relaxation theory to contrast agents for Magnetic Resonance Imaging
KEYWORDS: Nuclear Magnetic Resonance, contrast agents, relaxation, magnetic nanoparticles

1) Curriculum vitae including the statement:
„Wyrażam zgodę na przetwarzanie moich danych osobowych w celu rekrutacji zgodnie z art. 6 ust. 1 lit. a Rozporządzenia Parlamentu Europejskiego i Rady (UE) 2016/679 z dnia 27 kwietnia 2016 r. w sprawie ochrony osób fizycznych w związku z przetwarzaniem danych osobowych i w sprawie swobodnego przepływu takich danych oraz uchylenia dyrektywy 95/46/WE (ogólne rozporządzenie o ochronie danych)”.
2) A cover letter containing a description of the Candidate's competences in relation to the presented requirements
3) List of publications and other scientific achievements (such as: leading research projects, participation in research projects, conference presentations)
4) Information on the awards obtained as a result of conducting scientific research, scholarships, prizes, workshops and scientific training, and a description of the scientific experience gained outside the mother institution in the country or abroad
5) A copy of the diploma of completing second-level studies or uniform master's studies (physics, chemistry, materials engineer, nanotechnology, or biotechnology)
6) Confirmation of the doctoral student status or confirmation of the willigness to apply for admission to the Doctoral School

Documents may be submitted in Polish or English.

Documents should be submitted in electronic form to the following address: danuta.kruk@uwm.edu.pl
message title: OPUS 16
Phone: 895246011, 516849233

The Committee reserves the right to interview selected candidates (the candidates will be informed about the place and time of the interview by e-mail). The interview will be conducted electronically.
In the event of the resignation of a selected candidate, the Commission reserves the right to select the next person from the ranking list.

Dodatkowe informacje:

Magnetic Resonance Imaging (MRI) is one of the most profitable method of medical diagnostics. MRI provides information about pathological changes in tissue on the basis of differences between 1H relaxation rates between healthy and pathological tissues. To increase the differences contrast agents are applied – they often include Gadolinium; iron oxide nanoparticle based system are also used. Recent development in nanotechnology has led to manufacturing core-shell nanoparticles. Tailored magnetic properties of such systems make then highly promising as novel contrast agents. However, at this stage, there is no comprehensive theory linking the structural and magnetic properties of core-shell nanoparticles with the contrast effect. The studies aim at developing theoretical models of 1H relaxation processes in systems containing core-shell nanoparticles and their thorough testing against experimental data.

- work in an interdisciplinary research team
-opportunity to participate in international scientific conferences

For more information, please contact: danuta.kruk@uwm.edu.pl

Data dodania ogłoszenia: 2021-05-04 20:50:49

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