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enable the simulation and study of phenomena such as novel states of matter like quantum glasses, molecular dynamics and quantum thermodynamics. The project is primarily experimental and will be carried
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bioprinted constructs and microfluidic chips, integrating multiple human cell types to mimic tumor and vascular compartments, and characterizing tumor–BBB interactions using microscopy as well as molecular
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. The ideal applicant will be eager to engage in a dynamic, cross-border doctoral programme, spending significant periods of study and research in both Poland and the Netherlands. We seek an individual who
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and development activities in the fields of atomistic simulations, including density functional theory, machine learning, and molecular dynamics. The work involves theoretical and experimental research
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multistate-multiphysics deep learning potentials and polarizable embedding methodology to simulate photoinduced charge-transfer dynamics in multichromophoric systems, such as photosynthetic reaction centers
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, materials science, or a related discipline Advanced knowledge of rheology, fluid dynamics, and microfluidics to design and execute experiments simulating real-world conditions Demonstrated interest in soft
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of interest include (but not limited to) molecular mechanisms and nonequilibrium thermodynamics in living systems responsible for important regulatory functions such as signal transduction, molecular motor
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networks and nonequilibrium thermodynamics of living systems. Current areas of interest include (but not limited to) molecular mechanisms and nonequilibrium thermodynamics in living systems responsible
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higher education institution in conjunction with an R&D unit in Chemistry, Biochemistry or related fields. Knowledge of protein modeling, virtual screening and classical molecular dynamics. In case
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). • Required Skills: 1. Strong background in statistical mechanics and thermodynamics 2. Proficiency in first-principles calculations (VASP, Quantum Espresso) and molecular dynamics simulations (LAMMPS, OpenMM