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research is dedicated to improving the diagnosis and treatment of fungal infections. Additionally, we explore the biology of these infections, as well as the molecular mechanisms behind stress and antifungal
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are part of a larger project that seeks to integrate experimental and theoretical approaches to build sustainable synthetic platforms aligned with renewable energy technologies. The successful applicants
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-oriented research. The work will be carried out in the new OpenIreland research infrastructure, a large-scale testbed for experimentation in open optical, wireless and cloud technologies. The position will
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into plant-available forms. This project will determine the mechanisms of microbial phytate degradation in soil and develop microbe-enhanced biofertilizers to reduce dependence on rock phosphate
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an experiment, analyze experimental outputs and to collaborate with the greater project team. The aim of this PhD Project is to perform in vitro screening of potential molecular therapeutics followed by in vivo
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) Computational Fluid Dynamics (CFD) Modelling [may involve groundwater modelling with heat transfer depending on the chosen candidate] 3) Energy calculations and life cycle assessments (LCA analysis) 4) Conducting
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-world experimentation and data collection, particularly in an end-to-end network deployment that integrates AI-driven energy optimization strategies. Application Procedure Applicants should email Dr
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capacity to funding mechanisms and equity considerations. With Ireland's healthcare system as the primary context, the successful candidate will employ mixed research methods to investigate current
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. More specifically, we work to understand the mechanisms of (mal)adaptive plasticity and develop new treatment approaches for different neurological conditions (pain, tinnitus, Parkinson's disease
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/molecular interactions between stromal-innate immune cells involved in shaping the pro-inflammatory response in the joint. This will give significant insight into the (i) differential pathogenic mechanisms