Path to Impact for Autonomous Field Deployable Chemical Sensors: A Case Study of in Situ Nitrite Sensors

Author:

Schierenbeck Tim M.1,Smith Matthew C.1ORCID

Affiliation:

1. School of Freshwater Sciences, University of Wisconsin−Milwaukee, 600 E. Greenfield Avenue, Milwaukee, Wisconsin 53204, United States

Funder

University of Wisconsin-Milwaukee

Publisher

American Chemical Society (ACS)

Subject

Environmental Chemistry,General Chemistry

Reference175 articles.

1. Towards autonomous environmental monitoring systems

2. Prien, R.Technologies for new in situ chemical sensors.Proceedings of the OCEANS 2007 MTS/IEEE Conference, Aberdeen, Scotland, June 18–21, 2007.

3. Challenges in Environmental Analytical Chemistry

4. Cleary, J.; McCaul, M.; Diamond, D.; García, M. B. G.; Díez, C.; Rovira, C.; Challiss, M.; Lassoued, Y.; Ribotti, A.; Sáez, J.Common sense: Cost-effective sensors, interoperable with international existing ocean observing systems, to meet EU policies requirements.Proceedings of the IEEE Meeting Sensor Systems for a Changing Ocean (SSCO), Brest, France, October 13–17, 2014.

5. Marine Chemical Technology and Sensors for Marine Waters: Potentials and Limits

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