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threats to human and environmental health. This position aims to develop advanced catalytic technologies, including thermal, microwave, and photocatalysis, to convert plastic waste into high-value chemicals
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transcriptomics and bioimaging to study human liver biopsies and advanced, preclinical models. A combination of wet-lab and computational biology, close ties to the clinic, and a wonderful team of early career
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the function of risk factors in neurological disorders. By leveraging human-induced pluripotent stem cell (hiPSC) technology, we will establish hiPSC-derived brain cell models relevant to the study of
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transcriptomics and bioimaging to study human liver biopsies and advanced, preclinical models. A combination of wet-lab and computational biology, close ties to the clinic, and a wonderful team of early career
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advantage. Previous research experience in carrying out experiments with human participants is an advantage. The candidate is expected to be fluent in spoken and written English. Some level of spoken and
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disease, with a strong focus on fibrosis and inflammation. Over the years, we have developed an advanced translational toolkit, including human precision-cut tissue slices, a unique organotypic model
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been linked to these diseases for decades. This project aims to establish human autoantibody clones from various autoimmune diseases, with a primary focus on Systemic Sclerosis. This is with the purpose
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production and quality control will help save natural resources as well as reduce waste material and energy consumption. Formulation and test methods using mathematical modelling and prediction tools. Fouling