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Thermal conductivity of nanopatterned polymer thin films

Applicant Dr. Martin Kreuzer
Subject Area Experimental and Theoretical Physics of Polymers
Synthesis and Properties of Functional Materials
Physical Chemistry of Solids and Surfaces, Material Characterisation
Term from 2014 to 2016
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 255206430
 
Final Report Year 2016

Final Report Abstract

The release and absorption of energy is fundamental to all technological applications, followed by changes in temperature or in local energy. Therefore, easily manageable, cost efficient and environment-friendly materials for heat management are most wanted for numerous applications in nanotechnology, telecommunication and energy harvesting. Polymers fulfil these criteria in a window of parameters that enables high impact materials in the mentioned areas. The objective of this proposal is the study of thermal properties of block copolymer (BCPs) thin films with respect to alignment and structure. The microphase separation of BCPs will be used for a precise alignment on a nano scale. Further, functionalization of the polymer thin films will be achieved by the introduction of metal nanoparticles. The BCP films have the potential for controlled anisotropic and directional thermal conductivity characteristics. The structure of the polymer thin films will be analysed by electron and atomic force microscopy to resolve locally the prepared structures, and in scattering experiments (x-ray reflectivity and GISAXS), to obtain global information about in-plane and out-of-plane periodicity, defectivity and electron density. Heat transfer in the thin films will be measured in-plane and out-of-plane by several state-of-the-art techniques. The combination of structural and thermal characterization is especially important in the nano scale since their connection lies at the heart of understanding energy transfer processes.

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