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Home > Press > New research project supports internationalisation in nano-research: Launch of new “Baltic Sea Network”

Participating researchers in the Baltic Sea Network at a kick-off project at Rhine-Waal University of Applied Sciences. Photo credits: Rhine-Waal University of Applied SciencesPhoto credits: Rhine-Waal University of Applied Sciences
Participating researchers in the Baltic Sea Network at a kick-off project at Rhine-Waal University of Applied Sciences. Photo credits: Rhine-Waal University of Applied Sciences

Photo credits: Rhine-Waal University of Applied Sciences

Abstract:
The Baltic Sea Network is an ambitious collaborative research project between partner universities in Germany, Finland, Latvia, Lithuania, Poland and Sweden. The project, which is supported in part by a financial grant of €76,500 from the Federal Ministry of Education and Research in Germany, focuses on the manufacture and characterisation of innovative structured nanomaterials for medical applications.

New research project supports internationalisation in nano-research: Launch of new “Baltic Sea Network”

Kleve, Germany | Posted on November 22nd, 2014

The Baltic Sea Network is a multidisciplinary research project which will explore new biomedical applications for nanomaterials, for example in cancer treatment, for antimicrobial purposes, as bio-sensors or as a contrast agent for medical diagnostics. Participating universities and researchers hope that by promoting a free exchange of research and ideas, for example by making laboratories and facilities accessible to other project partners, they will encourage new research findings to the benefit of all participants. The project's ultimate goal, however, is to establish a new research platform focused on developing hybrid nanomaterials for biomaterial applications.

Researchers will focus on combining and testing nano-structures to develop new hybrid nanomaterials. Hybrid materials are incredibly small composites - no larger than a millionth of a millimetre - which consist of two different types of compounds: organic compounds (e.g. carbon or oxygen) and inorganic compounds (e.g. gold or metals). The nano particles themselves are held together and stabilised by repetitively branched molecules (dendrimers), which are also used to synthesise self-assembled hybrid systems with defined nanostructures (spherical structures and nanowires). Additionally, researchers will analyse a variety of other aspects of hybrid nanomaterials, including conductivity and surface properties, in order to discover new potential applications.

Participating institutions are planning to use new findings as a springboard for future projects and grants, for example through the European Commission's EU Horizon 2020 initiative or Marie Skłodowska-Curie actions research fellowships, or the European Cooperation in Science and Technology (COST) framework.

The research consortium is made up of internationally renowned and recognised experts in the field of materials science. In addition to Prof. Amir Fahmi from Rhine-Waal University of Applied Sciences, the project includes Prof. Krisztián Kordás, Prof. Seppo Vainio and Dr Alexey Popov (University of Oulu, Finland); Dr Dietmar Appelhans (Leibniz Institute of Polymer Research, Dresden, Germany); Prof. Valdis Kampars (Riga Technical University, Latvia); Prof. Rimas Vaisnoras (Lithuanian University of Educational Sciences); Prof. Aneta Koceva and Prof. Maria Bryszewska (University of Lodz, Poland); Prof. Michael Malkoch (KTH Royal Institute of Technology, Sweden); as well as Dr Alexei A. Antipov from the German firm PlasmaChem GmbH.

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Contacts:
Christin Hasken

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