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colloidal chemistry and with a special focus on self-aggregating systems. The systems studied include tensides, polymers and biomolecules. The current project focuses on Soft Matter, in particular
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generation (MEG) devices. Work duties Basic and applied research focused on POMs, including metal-organic frameworks (MOFs) and porous organic polymers (POPs). The work duties include basic and applied
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polymer chemistry, industrial chemistry, material science, or any related field. The thesis project will focus on developing carbon molecular sieve membranes. The position is for four years of doctoral
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Description The polymer electrolyte fuel cell, converting hydrogen to electricity, is a key technology for the green transition for transport as well as stationary applications. The anion exchange membrane fuel
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in polymer chemistry, industrial chemistry, material science, or any related field. The thesis project will focus on developing carbon molecular sieve membranes. The position is for four years
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foreign degree. This eligibility requirement must be met no later than the time the employment decision is made. Research experience regarding polymers The following abilities are assessed in the selection
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logic-based rules. In short, this fuzzy knowledge-based system will express the known relationships between the chemical structure of polymers and their corresponding properties. Second, we will combine
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advantageous: synthesis of photocatalysts photocatalytic degradation of organic molecules polymers modification, surface modification and hybrid materials synthesis material characterization techniques: FTIR
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dynamic conducting polymer nanooptics, structural coloration and cellulose-based optics. Examples of application-areas include radiative cooling, dynamically tuneable metasurfaces, and reflective displays
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part of the Organic photonics and Nanooptics group (www.mpjonsson.com ), headed by Prof. Magnus Jonsson. Recent interests of the group include dynamic conducting polymer nanooptics, structural coloration