Home
 > Jobs
print small

Participating Countries:

Australia

Austria

Belgium

Canada

Cyprus

Czech Republic

Denmark

European Commission

France

Germany

Greece

Hungary

Ireland

Israel

Italy

Norway

Poland

Portugal

Romania

Russian Federation

Serbia

Slovakia

Slovenia

Spain

Sweden

Switzerland

Turkey

Ukraine

United Kingdom

United States of America

COST is supported by the EU Framework Programme Horizon 2020
This website is supported by COST

PhD positions within “Severo Ochoa” Programme for Centres of Excellence, Madrid, Spain

9/26/2017

 IMDEA-Nanociencia is recruiting highly motivated individuals to contribute to the next phase of active growth offering research positions (Postdoc) funded by the 'Severo Ochoa' Programme (Grant SEV-2016-0686), whose mission is to develop high quality interdisciplinary research in the frontiers of Nanoscience within our strategic areas.

IMDEA-Nanociencia offers PhD fellowships contracts (1+3 years) for highly motivated students who wish to carry out a promising scientific career in any of our SO strategic areas within the listed scientific topics:

Organic Nanosystems for Light Harvesting and Energy Conversion

SO.I.1 Novel organic & hybrid nanomaterials for efficient harvesting of light & nanofabrication of solar cells

SO.I.2 Atomically resolved investigation of optical properties of single molecules and other nano-objects

SO.I.3 Time-resolved spectroscopies in the few femtosecond time range and its theoretical modelling

Fundamental Properties of 2D Materials

SO.II.1 Artificially stacked van-der-Waals heterostructures beyond graphene & 2D-based devices.

SO.II.2 Proximity effects in novel 2D materials (superconductivity, spin textures, topologically, Majorana)

SO.II.3 Theoretical modelling of the 2D systems

Nanomedicine

SO.III.1 Novel nanotechnology approaches fighting cancer: synthesis of metallodrugs, multi-functionalized magnetic nanoparticles and magnetic hyperthermia effects.

SO.III.2 Super-resolution optical spectroscopy at the level of the internal structure of single cells and nanomanipulation at the single molecule level.

SO.III.3 Antibacterial clinical surfaces by low-cost nanostructuration

Nanomagnetism and Critical Raw Materials

SO.IV.1 New generation of Rare-Earth-free permanent magnets

SO.IV.2 Topologically protected spin-orbitronics systems

SO.IV.3 Advanced catalyst nanomaterials with functional applications

(more details in the attached document)


Founding Members

Project Office

STSM



Subscribe to newsletter