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University Duties This PhD project is part of the AFLOW consortium supported by the Swedish Energy Agency and focuses on multi-scale modelling of aqueous organic redox flow batteries, to build a predictive
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, including adsorption and catalysis. MOFs consist of metal nodes connected by organic linker molecules, forming crystalline frameworks with well-defined pore systems and versatile chemistry, as recognized by
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focuses on the modelling of electrodes for redox flow batteries to clarify the influence of electrode surface properties on the macroscopic electrode properties. Pore-scale electrode modelling and numerical
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against experimental observations Bridging scales from pore-level processes (µm) to sample-scale behaviour (cm) through integrated experimental-numerical approaches To achieve this, you will be doing in
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validated in half-cells and full working batteries at industrial partners at TRL 6. Our objectives: Multiscale modelling to better understand RFB behavior and identify optimal hierarchical shaped pore- and
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. Objective 1: Optimise the cryoprinting process for fabricating poly(vinyl alcohol) (PVA) and gelatin GelMA-based structures with interconnected 3D pores and channels to achieve precise control over construct
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scale, undirected Brownian motion dominates in state-of-the-art membranes. 2D membranes have the potential to overcome this intrinsic deficiency and shift the paradigm of particle transport from
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hydathodes, tiny water pores of leaves that are connected to the xylem vein endings, and spreads systemically. Plants defend themselves against microbial invaders with an immune system involving pattern