Cagri Ozge Topal OSU ECEN 5060 Nanotechnology NANOBIOSENSORS Cagri Ozge Topal OSU ECEN 5060 Nanotechnology
Abstract The revolution of nanotechnology in molecular biology gives an opportunity to detect and manipulate atoms and molecules at the molecular and cellular level. Definition of Nanobiosensor History Types of Nanobiosensors Working Principle and Fabrication of Optical and FET Nanobiosensors Application Areas and Current Research Future Research
What is a Nanobiosensor? A biosensor is a measurement system for the detection of an analyte that combines a biological component with a physicochemical detector, and a nanobiosensor is a biosensor that on the nano-scale size Nanobiosensor Transducer Detector Biological Recognition Element (Bioreceptor) Living biological system (cell, tissue or whole organism) Biological molecular species (antibody, enzyme, protein…)
Biosensor Development 1916 First report on the immobilization of proteins: adsorption of invertase on activated charcoal. 1956 Invention of the first oxygen electrode [Leland Clark] 1962 First description of a biosensor: an amperometric enzyme electrode for glucose. [Leland Clark, New York Academy of Sciences Symposium] 1969 First potentiometric biosensor: urease immobilized on an ammonia electrode to detect urea. [Guilbault and Montalvo] 1970 Invention of the Ion-Selective Field-Effect Transistor (ISFET). 1972/5 First commercial biosensor: Yellow Springs Instruments glucose biosensor. 1976 First bedside artificial pancreas [Clemens et al.] 1980 First fiber optic pH sensor for in vivo blood gases. 1982 First fiber optic-based biosensor for glucose 1983 First surface plasmon resonance (SPR) immunosensor. 1987 Launch of the blood glucose biosensor[ MediSense]
Theory Principle of Detection Piezoelectric Mass Electrochemical Electric distribution Optical Light intensity Calorimetric Heat Types of Nanobiosensors Optical Biosensors Nanotube Based Biosensors Electrical Biosensors Viral Nanosensors Electrochemical Biosensors Nanoshell Biosensors Nanowire Biosensors
Theory Optical Nanobiosensors A sensor that uses light to detect the effect of a chemical on a biological system. [Kopelman et al.] The small size of the optical fibers allow sensing intracelular intercelular physiological and biological parameter in micro- environment. Two kind of fabrication methods for optical fiber tips; 1) Heat and Pull Method 2) Chemical Etching
Theory Nanowire Field Effect Nanobiosensors(FET) Sensing Element Semiconductor channel (nanowire) of the transistor. The semiconductor channel is fabricated using nanomaterials such a carbon nanotubes,metal oxide nanowires or Si nanowires. Very high surface to volume radio and very large portion of the atoms are located on the surface. Extremely sensitive to environment
Applications of Nanobiosensors Biological Applications DNA Sensors; Genetic monitoring, disease Immunosensors; HIV, Hepatitis,other viral diseas, drug testing, environmental monitoring… Cell-based Sensors; functional sensors, drug testing… Point-of-care sensors; blood, urine, electrolytes, gases, steroids, drugs, hormones, proteins, other… Bacteria Sensors; (E-coli, streptococcus, other): food industry, medicine, environmental, other. Enzyme sensors; diabetics, drug testing, other. Environmental Applications Detection of environmental pollution and toxicity Agricultural monitoring Ground water screening Ocean monitoring
Future Application Cancer Monitoring Nanobiosensors play a very important role for early cancer detection in body fluids. The sensor is coated with a cancer-specific antibody or other biorecognation ligands. The capture of a cancer cell or a target protein yields electrical, optical or mechanical signal for detection. [Professor Calum McNeil detection of cancer proteins that cause MRSA] Identification of Biomarkers ↓ Validation of Cancer Biomarkers Cancer Biomarkers Ligands / Probes Developments Cancer Diagnostics Biosensor ← Detector Point of Care Cancer Diagnostics
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