Meet the Experts: Daniel Campbell

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Daniel Campbell, Ph. D.
Principal Research Engineer
Remote Sensing: Environmental Sensors

daniel.campbell@gtri.gatech.edu
Phone: 404-407-6627
Fax: 404-407-6131

Electro-Optical Systems Laboratory
Georgia Tech Research Institute
925 Dalney Street
Atlanta, GA 30332-0810

Background

Education

1982 Doctor of Philosophy, Organic Chemistry,
Georgia Institute of Technology
Atlanta, Georgia USA

1973 Bachelor of Science, Forest Chemistry,

New York State College of Environmental Sciences and Forestry
Syracuse University
Syracuse, New York USA

Employment History

1997–Present Senior Research Scientist
Georgia Institute of Technology
Atlanta, Georgia USA

1984–1997 Research Scientist II
Georgia Institute of Technology
Atlanta, Georgia USA

1982–1984 Postdoctoral Fellow
Georgia Institute of Technology
Atlanta, Georgia USA

1974–1980 Graduate Research and Teaching Assistant
Georgia Institute of Technology
Atlanta, Georgia USA

Experience Summary

Is skilled in organic synthetic methods, including heterocycles, fluorinated and organometallic compounds, natural products, carbohydrates and inorganics. Has knowledge of a wide range of separation and characterization techniques including zone refining, multinuclear NMR, FTIR. Is skilled in design and microfabrication of electromagnetic devices, including mask making, clean room methodology, photolithography, metal evaporation, sputter and chemical vapor deposition, wire bonding and testing of devices. Has experience in Fabry-Perot interferometric absorption spectroscopy, microwave spectroscopy and Langmuir-Blodgett monolayer methodology; has recently synthesized tested novel monolayers for successful application in antibiofouling technology.

Current Fields of Interest

Use of Langmuir-Blodgett layers for absorption and detection of organic and inorganic compounds; design and fabrication of devices with integrated optic waveguides for the detection of chemical species with application in chemical processing, environmental monitoring and medical diagnostics; organic nonlinear optics and their application in electronic devices; Fabry-Perot interferometry and microwave spectroscopy.

Reports & Publications

"An Integrated Optic Gaseous Ammonia Sensor," N. F. Hartman, J. L. Walsh, C. C. Ross, D. P. Campbell, Sensors EXPO 92, Chicago, Illinois, 1-3 October 1992.," ()
"Use of Z-Scan Technique to Characterize Nonlinear Properties of Imidazole-2-thiones," H. Toda, C. M. Verber and D. P. Campbell, Proceedings of the Optical Society of America, Annual Meeting, San Francisco, California, November 1991," ()
"Development of a Field Worthy Sensor System to Monitor Gaseous Nitrogen Transfer from Agricultural Croplands," U.S. Dept. of Energy, Final Report, October 1991, coauthor," ()
"Imidazolium-Stabilized 1,2-Dipoles: a New Class of Nonlinear Optical Organic Materials," D. P. Campbell, J. A. Buck, M. E. Ogle, and D. P. Forrai, Proceedings of the National Organic Symposium, Minneapolis, Minnesota, June 1991," ()
"Integrated Optic Interferometric Biosensor," D. P. Campbell and N. F. Hartman, PITCON '93, Atlanta, Georgia, 8-11 March 1993," ()
"Integrated Optic Gaseous Ammonia Sensor," D. P. Campbell, N. F. Hartman, C. R. Ross, PITCON '93, Atlanta, Georgia, 8-11 March 1993," ()

Patents

”Improved Design for a Hall Device,“ U.S. Patent No. U.S. patent 4,698,522 (October 1987), Co-inventor

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