IFW, Leibniz

Leibniz Institute for Solid State and Materials Research, IFW

leibniz

 

 

The IFW is a non-university research institute and member of the German Gottfried Wilhelm Leibniz Scientific Community.

 

More than 200 scientists are involved in modern materials science and explorative research in physics and chemistry with view to technological developments. The focus is on relations between fundamental and application-related characteristics of materials, investigations of structural properties, failure mechanisms and processing conditions for property optimization.

 

Collaborations are with universities and other higher education establishments with emphasis on the training of young scientists and also with the industrial sector.

 
IFW

ADDRESS

Street: HELMHOLTZSTRASSE 20

Postcode: 01069

City: DRESDEN

Country: Germany

 

CONTACT

Contact Person: Dr. Annett Gebert

E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

Telephone: +49-(0)351-4659-275

Fax: +49-(0)351-4659-452

 

 

VISIT OUR WEBSITE

 

 

How to arrive

 
 

Beneficiaries



Telf:+34 93 581 2085
Fax:+34 93 581 2155
jordi.sort[at]uab.cat


H2020 logo

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 642642

Objectives

 SELECTA is a highly interdisciplinary initiative which has the primary goal of training young researchers in the field of smart electrodeposited metallic alloys suitable for environmental / sustainable development applications.
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Network

SELECTA project is a Marie Sklodowska-Curie Innovative Training Network that offers the possibility to pursue the PhD within the Network at different research centers.15 PhD positions are funded by the European Community under Horizon 2020 

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Sustainability

SELECTA seeks to achieve the target purposes using a sustainable approach, designing alloy compositions without/with minimum amounts of scarce or toxic elements, while employing environmentally-friendly, minimally invasive electrolytic baths.

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