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for the morphological and mechanical characterization of biological samples containing an extracellular matrix, particularly reconstructed tissues in organ-on-chip models. They will implement techniques and methods on a
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order of mammals with over 2,500 species, occupies nearly all terrestrial ecosystems and exhibits extensive ecological and morphological diversification. Their highly mineralized dentition preserves
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electrogravimetric response. To do this, we will implement a multi-stage approach, combining the development of model electroactive materials, their physico-chemical characterisation, and the advanced exploitation
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. This data is crucial for improving the numerical models aimed at simulating crystal morphologies and interfacial dynamics, as well as gaining a better understanding of the solidification mechanisms. Where
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morphology of splash-cups optimal for dispersal? The postdoc will characterise the efficiency of dispersal of a splash-cup as a function of its geometry, in terms of number of gemmae dispersed and reach of
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electrogravimetric response. To do this, we will implement a multi-stage approach, combining the development of model electroactive materials, their physico-chemical characterisation, and the advanced exploitation