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of versatile redox-active organic polymers for their application in post-lithium electrochemical energy storage devices. Objectives: to develop novel redox-active polymers (RAPs) and their hybrids, including
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the Group of Polymerization Processes at POLYMAT Fundazioa (www.polymat.eu ), in a project funded by the consortium of companies forming the Industrial Liaison Program of POLYMAT in Polymerization in
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, having a solid background in polymers and a Master in Materials Engineering, Chemical Engineering or related area. Experience in general-purpose simulation software based on advanced numerical methods
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(Baranova et al 2020, Hernandez-Rocamora et al 2021, Radler et al 2022) . We employ approaches covering advanced protein biochemistry and reconstitution of transmembrane proteins on polymer-supported lipid
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integrated in technologically relevant platforms (silicon/flexible polymers) making them highly appealing for novel applications in electronics, sensors, actuators, energy harvesters, etc. On top of
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: Computational modelling of inorganic/organic hybrid assemblies for energy conversion. Number of positions: 1 Reference: PhD 2024-15 CB Supervisor:Dr. José A. Berrocal Project: Development of polymer materials
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properties. These membranes can be integrated in technologically relevant platforms (silicon/flexible polymers) making them highly appealing for novel applications in electronics, sensors, actuators, energy
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relevant platforms (silicon/flexible polymers) making them highly appealing for novel applications in electronics, sensors, actuators, energy harvesters, etc. On top of that, they offer exciting