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F7ABBBFT - Biophotonics
| Code | Completion | Credits | Range | Language |
|---|---|---|---|---|
| F7ABBBFT | KZ | 2 | 2P | English |
- Lecturer:
- Jan Mikšovský, Jan Remsa
- Tutor:
- Jan Mikšovský, Jan Remsa
- Supervisor:
- Department of Natural Sciences
- Synopsis:
-
Overview of principles and applications in the interdisciplinary sphere, connecting physics, optics and biology. Interaction of laser radiation with matter, interaction of radiation with tissue, biology basics, photobiology, bioimaging, basics of lasers, laser safety, optical biosensors, photodynamical therapy, optical manipulation with cells, nanotechnology for biophotonics, biomaterials for photonics.
- Requirements:
-
Assesment : active participation on the solution of exercises.
Examination : fulfilment of requirements for assessment, knowledge covering content of the course. Tests in 4., 8., and 12. week of the semester. Attendance 70 %. Two semester works and two home works.
- Syllabus of lectures:
-
1.Biophotonics as scientific discipline
2.Interaction of radiation with matter I (dual character of light, photons, coherence, interference, diffraction, bounds in molecules)
3.Basic of laser technique (laser principle, types of lasers, laser applications in photobiology and in medicine, laser safety)
4.Basic of biology
5.Interaction of radiation with matter II. (interaction light - molecule, interaction with matter, indication and detection of interaction mechanisms)
6.Absorption and emission of light, principles of biological spectroscopy (absorption, emission, fluorescence, raman, Fourier infrared, etc.)
7.Bioimaging (principles, microscopy, types of microscopes - transmission, fluorescence, tunneling, electron, etc.)
8.Optical biosensors (principles, contruction, applications), photomultipliers, semiconductor detectors and sensors
9.Photodynamical therapy (principles, field of applications), cytometry
10.Interaction of radiation III. (interaction with tissue, regeneration, phototherapy, optical coherence tomography)
11.Cells optical manipulation
12.Nanotechnology for biophotonic- bionanophotonic
13.Biomaterials for biophotonic
14.Exam preparation
- Syllabus of tutorials:
- Study Objective:
-
Overview of principles and applications in the interdisciplinary sphere, connecting physics, optics and biology. Interaction of laser radiation with matter, interaction of radiation with tissue, biology basics, photobiology, bioimaging, basics of lasers, laser safety, optical biosensors, photodynamical therapy, optical manipulation with cells, nanotechnology for biophotonics, biomaterials for photonics.
- Study materials:
-
[1] PRASAD, Paras N. Introduction to biophotonics. Hoboken: Wiley, c2003. ISBN 0-471-28770-9.
[2] PRASAD, Paras N. Nanophotonics. Hoboken, NJ: Wiley, 2004. ISBN 0471649880.
[3] Biomedical Photonics Handbook: Fundamentals, Devices, and Techniques, TUAN VO- DINH (Editor), Taylor&Francis Group, 2nd Edition, 2014.
ISBN 978-0429139208 (http://library.nuft.edu.ua/ebook/file/Vo-Dinh2003.pdf)
[4] Biophotonics International Journal.
- Note:
- The course is a part of the following study plans:
-
- Prospectus - bakalářský (!)
- Biomedical Technology (compulsory elective course)
- Biomedical Technology (compulsory elective course)
Downloads:
| Attachment | Size |
|---|---|
 (Remsa) Spectroscopy lectures I and II | 5.13 MB |
| (Remsa) Optical tweezer lecture | 571.93 KB |
| (Remsa) Detectors lecture | 4.03 MB |
| (Remsa) Biosensors lecture | 2.35 MB |
| (Remsa) Surface probe microscopy lecture | 4.1 MB |
Schedule of lectures https://harm.fbmi.cvut.cz/B241/F7ABBBFT/lec