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very challenging. Therefore, high-throughput screening of drug-like molecules needs to also consider their synthetic viability. The aim of this project is to develop a deep learning and generative design
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. A combination of Raman spectroscopy and total X-ray scattering techniques will be used to study the crystallisation of drug molecules and molecular analogues, to determine the influence of functional
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release (2) a stimuli-triggered drug release (e.g. light, pH, etc.). The current PhD project (Design of smart SUstained-RElease drug delivery systems: synthesis, characterization and applications in nano
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Supervisors: Supervisors: Prof. Reinhard J. Maurer (Chemistry/Physics), Prof. Scott Habershon (Chemistry) Summary: The drug discovery pipeline involves the screening of many molecules before viable
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The burgeoning field of synthetic biology offers promising avenues for engineering artificial cells with tailored functionalities for diverse biomedical applications. This PhD project aims
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21st May 2024 Languages English English English PhD position in structure-based RNA-ligand design - third round advertisement Apply for this job See advertisement UiB - Knowledge that shapes society
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PhD position in structure-based RNA-ligand design - third round advertisement Apply for this job See advertisement UiB - Knowledge that shapes society Through robust and close interaction with
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products through empirical work underpins the process design of most commercial batch granulation processes. This consumes many batch runs, plant time and input materials for new drugs and new process lines
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efficiency, drug resistance, high toxicity, long duration of treatment, relapse, inconvenient and painful injections, and the cost. To overcome these limitations, in this project we will employ metal organic
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eradication without unacceptable local and systemic side effects. We are looking for a PhD student for four years with a physics background for designing and applying this digital model. Examples of a