Wykaz obszarów badawczych związanych z tagiem Mikrofluidyka:
| # | Obszar badawczy | Dziedzina naukowa |
|---|---|---|
| 1 |
Theoretical (numerical simulations) and experimental research in the field of fiber optics, photonics, photonics micro- and nanostructures, optofluidics, fiber optic sensors, and tunable fiber optic components. Research in the field of fabrication of three-dimensional photonic (and not only) microstructures using two-photon polymerization (based on the commercial Nanoscribe device) and projection microstereolithography (based on self-made experimental setup). Research related to photo-alignment of liquid crystal molecules, development of an automated system allowing for the production of one- and two-dimensional complex patterns of liquid crystal molecules with micrometer resolution. Analysis of samples using optical, digital, polarimetric and scanning electron microscopy. Automation and miniaturization of optical and photomechanical experimental systems.
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| 2 |
Advanced Microfluidic and Organ-on-Chip Systems in Biotechnology and Precision Medicine – research focuses on the design, fabrication, and application of innovative microfluidic platforms and Organ-on-Chip (OoC) systems, which enable the creation of biomimetic models of human tissues and organs. These models enable the study of disease mechanisms, interactions between different cell types, and the testing of new therapies in a controlled laboratory environment. This area encompasses the development of microfabrication technologies (photolithography, micromilling, 3D printing, thin-film lamination), the design of microenvironments supporting cell co-cultures, and the integration of real-time cell function monitoring systems (e.g., TEER/EIS techniques, fluorescence imaging, molecular methods). These platforms are used in basic research, toxicology, pharmacology, and precision medicine, contributing to the development of a new generation of in vitro models that better represent human physiology.
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