NaMeS PhD Studies

NaMeS PhD Studies

“Interdisciplinary NAnoscience School: from phenoMEnology to applicationS” (‘NaMeS’) is a research training programme of the Institute of Physical Chemistry PAS (IPC) intended for PhD fellows. The programme, benefiting from former IPC achievements in nanoscience, is designed to employ the phenomenological knowledge concerning nanoscale processes to the creation of new materials applicable in industrial technology, medical diagnostics, and environmental protection.

NaMeS links chemistry, physics, mathematics, biology and materials science with business. The programme is aimed at creating a new generation of scientists capable of working in both scientific and business sectors, and becoming  stimulants and intermediaries of knowledge & technology transfer on an international level.

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Recruitment

Recruitment

Next calls

will be announced if vacancies occur

24
01

Secondment to the Sorbonne University

Gabriel Morgado, NaMeS PhD student, participated in the secondment to the Centre National de la Recherche Scientifique (CNRS). The objective of the secondment was twofold. First, Gabriel and research team in Paris completed first project on the scaling of Turing patterns.

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24
01

Secondment to the Institute for Nanoscience and Cryogenics

Natalia Olejnik-Fehér, NaMeS PhD student, paricipated in the secondment to the Institute for Nanoscience and Cryogenics, Grenoble. The main goals of her project are: (i) systematic investigations on surface characterization as well as density and distribution of organic ligands and/or inorganic functional groups on the surface of bare and ligand-coated ZnO NCs with applications of various analytical techniques

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21
01

MicroTAS 2018

Yu-Kai Lai participated in the conference MicroTAS 2018. It is a prestigious professional conference for reporting research results in microfluidics, microfabrication, nanotechnology, integration, materials and surfaces, analysis and synthesis, and detection technologies for life science and chemistry.

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This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 711859.