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Biophotonics can also be described as the "development and application of optical techniques, particularly imaging, to the study of biological molecules, cells and tissue". [2] One of the main benefits of using the optical techniques which make up biophotonics is that they preserve the integrity of the biological cells being examined. [3] [4]
The Journal of Biophotonics is a monthly peer-reviewed scientific journal covering research on the interactions between light and biological material. It was established in 2008 by Jürgen Popp ( Friedrich Schiller University Jena ), Gert von Bally (Muenster, Germany), and Andreas Thoss (Berlin, Germany).
Boppart started the Biophotonics Imaging Laboratory at UIUC in 2000, an interdisciplinary research group working at the intersection of engineering, medicine, and biology. The research focuses on the development of biophotonics for translational medicine in primary care and oncology. Building upon the development of OCT in his graduate studies ...
Marcus T. Cicerone is an American physicist, physical chemist, and inventor. His research focuses on noninvasive spectroscopic imaging and dynamics in amorphous condensed phase matter.
Igor Meglinski is a British, New Zealand and Finnish scientist serving as a principal investigator at the College of Engineering & Physical Sciences at Aston University, where he is a Professor in Quantum Biophotonics and Biomedical Engineering.
Biophotonics employs tools from the field of photonics to the study of biology. Biophotonics mainly focuses on improving medical diagnostic abilities (for example for cancer or infectious diseases) [ 14 ] but can also be used for environmental or other applications.
Reef cuttlefish (a cephalopod) using dynamic camouflage to blend in to its surroundings. Bio-inspired photonics or bio-inspired optical materials are the application of biomimicry (the use of natural models, systems, and elements for human innovations [1]) to the field of photonics (the science and application of light generation, detection, and manipulation [2]).
Applications in Biophotonics include the treatment of birthmarks [13] such as Port-wine stain [8] [14] and the removal of tattoos, [15] [16] the detection of bleeding in stroke patients, [17] non-invasive detection of skin cancer [18] [19] and oral lesions, [20] and monitoring of the effects of chemotherapy in breast cancer patients.