Our research team aims to advance science in the field of optical biosensors, and furthermore, develop novel optical biosensor technologies for applications in biomolecular research and bioanalytics. This highly multidisciplinary research requires a concerted effort in multiple areas, including: research into photonic and plasmonic (nano)structures; the development of functional biomolecular systems; and the development of sensor instruments. The instruments developed by our research team are used for a variety of applications, among other fields, the investigation of biomolecules and their interactions, and the detection of chemical and biological substances
We carry out theoretical and experimental research to expand the understanding of optical phenomena in photonic (nano)structures, in particular, in (nano)structures supporting various types of surface plasmons, with a focus on their role in optical biosensing based on Surface Plasmon Resonance (SPR) and Surface-Enhanced Raman Scattering (SERS).
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We investigate approaches to interface inorganic photonic (nano)structures with biomolecules. Specifically, we look to control the placement of the biomolecules on the photonic (nano)structures, and furthermore, to optimize the properties of the photonic (nano)structures functionalized with biomolecules with respect to their interactions with biological media.
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We research optical measurement techniques, including measurement principles, instrumentation, and data processing approaches, to create optical systems for high-performance optical biosensors. We also research analyte transport phenomena and work on microfluidic systems with optimized analyte transport properties.
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We pursue optical biosensor application for the study of biomolecules and their interactions, for example, interactions of nucleic acids, protein-protein interactions and studies of enzymatic activity. This effort comprises, in particular, the development of novel experimental methodologies and data analysis tools.
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We develop novel biosensors for the rapid and sensitive detection of chemical and biological substances relevant to medical diagnostics (disease biomarkers, e.g. molecular biomarkers of cancers, Alzheimer’s disease, organ damage, etc. ), environmental monitoring (pollutants and contaminants, e.g. atrazine, bisphenol A, benzo(a)pyren, nonylfenol, etc. ), and food safety (pathogens and toxins, e.g. Escherichia coli, Salmonella enterica, Lysteria monocytogenes, Staphylococcal enterotoxins, tetrodotoxin, etc.).
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