Titration is a method of chemical analysis; for example: - volumetry - potentiometric titration - amperometric titration - radiometric titration - Karl Fisher titration - spectrophotometric titaration - viscosimetric titration and other methods
The potential applied between the indicator electrode and the reference electrode is kept constant and the current through the electrolyte cell is then measured on addition of each increament oftitrating solution.
There are different types of biosensors based on different principles. However, generally they are categorized as: Optical biosensors Potentiometric biosensors Resonant Biosensors Thermal-detection Biosensors Ion-Sensitive Biosensors Electrochemical Biosensors Conductimetric Amperometric Potentiometric Calorimetric biosensors
Sharmistha Ghosh has written: 'Studies of membrane-modified amperometric biosensors' 'String instruments (plucked variety) of north India' -- subject(s): Plucked instruments
It is appropriate to use biosensors for pollution control or when one moves their eye. The biosensors control the movement in which the eye makes from one's nerves.
F. Scheller has written: 'Biosensoren' 'Biosensors' -- subject(s): Biosensors
M. Todd Jarvis has written: 'Biosensors' -- subject(s): Biosensors, Technology assessment
Biosensors can be made to detect almost anything. You could design a biosensor to detect a non-pathogenic bacteria but there would be few people who would want to buy it.
An "Ohm-meter" measures conductivity or resistance. Other , more sophisticated systems use Potentiometric meters or Amperometric meters.
Thomas Scheper has written: 'Bioanalytik' -- subject(s): Analysis, Biomolecules, Bioreactors, Biosensors
Richard F. Taylor has written: 'Biosensors' -- subject(s): Biosensor industry, Market surveys
Tuan Vo-Dinh has written: 'Advanced environmental, chemical, and biological sensing technologies V' -- subject(s): Environmental monitoring, Congresses, Biosensors, Detectors, Industrial applications, Chemical detectors 'Advanced environmental, chemical, and biological sensing technologies VII' -- subject(s): Environmental monitoring, Congresses, Biosensors, Detectors, Industrial applications, Chemical detectors 'Nanotechnology in Biology and Medicine' 'Advanced environmental, chemical, and biological sensing technologies VI' -- subject(s): Environmental monitoring, Congresses, Biosensors, Detectors, Industrial applications, Chemical detectors 'Plasmonics in biology and medicine IX' -- subject(s): Instrumentation, Surface Plasmon Resonance, Methods, Biosensors, Congresses, Plasmons (Physics), Nanotechnology, Raman Spectrum Analysis 'Plasmonics in biology and medicine VI' -- subject(s): Biosensors, Congresses, Plasmons (Physics) 'Advanced biomedical and clinical diagnostic systems VI' -- subject(s): Spectrum Analysis, Technological innovations, Congresses, Diagnostic imaging, Diagnostic Imaging
Sensors provide information to other parts of the machine. There are temperature, pressure, level, flow, biosensors, gas, and proximity sensors.
Roberto Andres has written: 'Development of fibre-optic biosensors based on immobilised enzymes and studies on their analytical applications'