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and conduct cutting-edge research on disease dynamics and epidemiological modeling. The candidate will develop and apply mathematical and computational models to understand the transmission, evolution
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Medicinal Natural Product Biochemistry in our dynamic and interdisciplinary team. The successful candidate will work on a cutting-edge project involving the study of bioactive natural products from medicinal
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surveillance, prevention, and control of infectious diseases. Example projects include assessing drivers of global infectious disease dynamics and developing short- and long-term forecasts for those diseases
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research in the field of Plant Medicinal Natural Product Biochemistry in our dynamic and interdisciplinary team. The successful candidate will work on a cutting-edge project involving the study of bioactive
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positions are filled. If you are passionate about these research areas and wish to join a dynamic and collaborative team of researchers, we encourage you to apply. We offer flexibility in the research topic
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improving yields and sustainability. The successful candidate will focus on the dynamic organization of chloroplast pathways in response to environmental stimuli (e.g., high-light stress and nutrition stress
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(broadly defined), molecular dynamics simulations, sampling techniques, machine learning, or quantum computing are big pluses. The candidate should have good communication skills, both oral and written, and
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molecular dynamics, docking (e.g., IFD), metadynamics, and free energy perturbation (FEP) techniques. Construct and contribute to the development of software tools for simulation and analysis. Integrate and
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locally-acting semisolids). Interpret and present results and recommend appropriate actions in a timely fashion. Prepare progress reports and monthly presentations for grant sponsors. Publish manuscripts
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) Group led by Prof. Ravinder Dahiya. BEST group aims to bring fundamental changes in the way the sensors and electronic devices are developed using materials designed for sustainability, and resource