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1 August 1995 Surface immobilization of biomolecules by light
Hans Sigrist, Andre Collioud, Jean-Francois Clemence, Hui Gao, Reto Luginbuehl, Michael Saenger, Gajendran Sundarababu
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Optical Engineering, Vol. 34, Issue 8, (August 1995). https://doi.org/10.1117/12.201815
Abstract
Biomolecules performing specific biological functions on material surfaces are progressively employed in the development of miniaturized bioassays, biosensors, bioelectronic devices, and medical equipment. Device performance is improved with covalently immobilized bioconstituents. The unique advantages of using light-controlled reactions to achieve biomolecule immobilization on surfaces are addressed. On activation of introduced light-sensitive reagents, biomolecules are covalently linked to material surfaces. Procedures leading to light-dependent engineering of surfaces are exceptionally facile. Immobilization by light is compatible with biological functions, enabling surface patterning and molecular coating of materials. Current strategies and protocols are illustrated with selected examples of biomolecule photoimmobilization.
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Hans Sigrist, Andre Collioud, Jean-Francois Clemence, Hui Gao, Reto Luginbuehl, Michael Saenger, and Gajendran Sundarababu "Surface immobilization of biomolecules by light," Optical Engineering 34(8), (1 August 1995). https://doi.org/10.1117/12.201815
Published: 1 August 1995
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Cited by 62 scholarly publications and 15 patents.
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KEYWORDS
Biosensors
Coating
Medical device development
Medical equipment
Optical lithography
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