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is part of an interdisciplinary project funded by the Human Frontiers Science Program (www.hfsp.org) and involves collaboration with researchers from biology and mechanical engineering from the UK
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the biogeochemical mechanisms that underpin the resilience of restored wetlands, integrating field observations, laboratory experiments, and modelling approaches. You will explore how nutrient dynamics, hydrological
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the biogeochemical mechanisms that underpin the resilience of restored wetlands, integrating field observations, laboratory experiments, and modelling approaches. You will explore how nutrient dynamics, hydrological
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. Uncovering these mechanisms will inform the process design for next-generation biofertilizers, and beyond. Responsibilities and qualifications Your role will be to develop novel, robust, and scalable
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have successfully defended a PhD thesis in a relevant discipline (computational mechanics, mechanical/aerospace engineering, simulation technology, applied mathematics, etc.). If you have not received
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-solving skills, and the ability to work collaboratively in a team are expected. We imagine that the successful candidate will have a PhD in neuroscience, medicine, biomedical engineering, physiotherapy
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materials discovery, materials processing, and structural analyses. We also focus on educating engineering students at all levels, ranging from BSc, MSc, PhD to lifelong learning students. We have about 300
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for Computing Machinery, New York, NY, USA, 1222–1236. [3] C. Orfanidis, L. Marie Feeney, M. Jacobsson and P. Gunningberg, "Cross-Technology Clear Channel Assessment for Low-Power Wide Area Networks," 2019 IEEE