Open Access
E3S Web Conf.
Volume 299, 2021
4th Annual International Conference on Energy Development and Environmental Protection (EDEP 2021)
Article Number 02017
Number of page(s) 7
Section Environmental Science and Engineering
Published online 05 August 2021
  1. Shitanda I., Mori S., Itagaki, M. 2011 Screen-printed Dissolved Oxygen Sensor Based on Cerium Oxide-supported Silver Catalyst and Polydimethylsiloxane Film ( Analytical Sciences) 27(10) 1049–1052. [Google Scholar]
  2. Martin C.S., Dadamos T.R.L., Teixeira, MFS. 2012 Development of an electrochemical sensor for determination of dissolved oxygen by nickel-salen polymeric film modified electrode (Sensors and Actuators B-Chemical) 175 111–117. [Google Scholar]
  3. Li Fu, Yu Hong, et al. 2015 Dissolved oxygen detection by galvanic displacement-induced graphene/silver nanocomposite (Bulletin of Materials Science) 38(3) 611–616. [Google Scholar]
  4. Moya A., Sowade, E., del Campo, F.J., et al. 2016 All-inkjet-printed dissolved oxygen sensors on flexible plastic substrates (Organic Electronics) 39 168–176. [Google Scholar]
  5. Lee H.J., Kim H.M., Park J.H., et al. 2017 Fabrication and characterization of micro dissolved oxygen sensor activated on demand using electrolysis (Sensors & Actuators B Chemical) 241 923–930. [Google Scholar]
  6. Campo J.C., Perez M.A., Gonzalez M., et al. 1999 An optrode type sensor to measure dissolved oxygen in water; proceedings of the IEEE Instrumentation & Measurement Technology Conference F [C]. [Google Scholar]
  7. Shortreed M., Kopelman R., Kuhn M., et al. 1996 Fluorescent Fiber-Optic Calcium Sensor for Physiological Measurements [J]. Analytical Chemistry 68(8) 1414–1418. [PubMed] [Google Scholar]
  8. Xavier M.P., Garcia-Fresnadillo D., Moreno-Bondi M.C., et al. 1998 Oxygen Sensing in Nonaqueous Media Using Porous Glass with Covalently Bound Luminescent Ru(II) Complexes (Analytical Chemistry) 70(24) 5184–5189. [Google Scholar]
  9. Wolfbeis, O.S. 2002 Fiber-Optic Chemical Sensors and Biosensors (Analytical Chemistry) 74(12) 2663–2677. [Google Scholar]
  10. Zaitsev N.K., Dvorkin V.I., Melnikov P.V., et al. 2018 A Dissolved Oxygen Analyzer with an Optical Sensor ( Journal of Analytical Chemistry) 73(1) 102–108. [Google Scholar]
  11. Uchida H., Kawano T., Kaneko I., et al. 2008 In Situ Calibration of Optode-Based Oxygen Sensors ( Journal of Atmospheric and Oceanic Technology) 25(12) 2271–2281. [Google Scholar]
  12. Takeshita Y., Martz T.R., Johnson K.S., et al. 2013 A climatology-based quality control procedure for profiling float oxygen data ( Journal of Geophysical Research-Oceans) 118(10) 5640–5650. [Google Scholar]
  13. Koertzinger A., Schimanski J., Send, U. 2005 High Quality Oxygen Measurements from Profiling Floats: A Promising New Technique (Jatmos & Oceantech) 22(3) 302–308. [Google Scholar]
  14. D'Asaro, E.A., McNeil, C. 2013 Calibration and Stability of Oxygen Sensors on Autonomous Floats (Journal of Atmospheric and Oceanic Technology) 30(8) 1896–1906. [Google Scholar]
  15. Bushinsky S.M., Emerson, S. 2013 A method for in-situ calibration of Aanderaa oxygen sensors on surface moorings (Marine Chemistry) 155 22–28. [Google Scholar]
  16. Johnson K.S., Plant J.N., Riser S.C., et al. 2015 Air Oxygen Calibration of Oxygen Optodes on a Profiling Float Array (Journal of Atmospheric and Oceanic Technology) 32(11) 2160–2172. [Google Scholar]
  17. Nicholson D.P., Feen, M.L. 2017 Air calibration of an oxygen optode on an underwater glider (Limnology and Oceanography-Methods) 15(5) 495–502. [Google Scholar]

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