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unique expertise in formulation development and advanced characterisation of cements and related materials, particularly in spectroscopic and microstructural techniques exploring the effect of raw material
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microstructural imaging techniques. The research has been published in a wide spectrum of leading academic journals, including the Lancet Neurology, Alzheimer’s & Dementia, Neurology, Radiology, Cerebral Cortex
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Max Planck Institute of Microstructure Physics • | Halle, Sachsen Anhalt | Germany | about 21 hours ago
no application deadline. Please refer to https://www.imprs-stns.mpg.de/application for details. Tuition fees per semester in EUR None Combined Master's degree / PhD programme No Joint degree / double
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into biomimetic microstructures with 2-photon polymerization setup The evaluation of morphological and electrochemical device properties in biological conditions The validation for in-vitro cell interfacing
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porous carbon electrodes developed in the network. You will leverage advanced data analysis methods such as Distribution of Diffusion Times to obtain insight into mass transfer and microstructural effects
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Job Purpose To make a leading contribution to the GALLANT programme (https://www.gla.ac.uk/gallant ) through the project “Simultaneous carbon sequestration and pollution remediation”, working with
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to join the exciting and collaborative research project part of the Dutch National Growth Fund program – Growth with Green Steel (https://groeienmetgroenstaal.nl/en/ ). As a PhD or post-doc researcher, you
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novel in-situ characterisation approach including surface-specific techniques, spectroscopic, and microstructural characterisation, to examine the chemistry and interactions at the interface of the oil
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microstructure, residual stress, and distortion of the deposited parts, all of which significantly impact their mechanical properties and overall performance. Consequently, accurately determining and effectively
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. The temperature field generated by the interaction between the arc and the material plays a critical role in determining the microstructure, residual stress, and distortion of the built parts—all of which