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Description Research project: CONTEXT DEPENDENT INTERACTIONS IN COMPLEX SYSTEMS: DYNAMICAL PROCESSES PID2024-158120NB-C22 Exhaustive analysis of bibliographic data bases within the framework of the research
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equations (SDEs) are widely used to model time-evolving phenomena in finance, biology, and social dynamics, the underlying data is often highly sensitive. This project tackles the intersection of complex
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). Knowledge of complex network modelling, omics data analysis or computational simulation. Research FieldOther Internal Application form(s) needed Perfil. .pdf English (606.79 KB - PDF) Download Additional
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-equilibrium supramolecular systems and reaction–diffusion networks. Analyze the kinetics and thermodynamics of dissipative self-assembly processes. Study the emergence of complex behaviors in coupled chemical
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solution processable metal oxides (classical and complex), halide perovskites (Pb-free, 2D and 3D) and, more recently, 2D materials and MXenes. We aim at the development of highly stable solar cells
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exploiting this information to support food safety risk assessment remains a major challenge. Key difficulties include the integration of heterogeneous data, the handling of uncertainty and complexity, and the
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of these heat waves. Collaborate with interdisciplinary teams to address complex research questions and solve real-world problems. Where to apply Website https://seuelectronica.upc.edu/en/procedures
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. High level of autonomy combined with capacity to work in interdisciplinary environments. Ability to coordinate complex technical developments and manage multiple tasks simultaneously. Proactive attitude
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processing methods. Highly motivated and enthusiastic researcher. Strong analytical skills and a keen interest in the interpretation of complex data. Excellent organization skills, time management and ability
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photosynthetic membranes. Specifically, pump-probe ultrafast nanoscopy of transport in model OPVs and light-harvesting complexes. Specifically, advance structured excitation methods for low light level exciton