Douglas Davis Professor Emeritus

Douglas Davis

Scientist and Master Gardener

Scientific Publications

• Chemical Ionization Mass Spectrometry Technique for the detection of Dimethylsulfoxide and Ammonia, Nowak, J., L. Huey, F. Eisele, D. Tanner, R. Mauldin, C. Cantrell, E. Kosciuch, and D. Davis, J. Geophys. Res., 107, 4363, 2002.

• An Airborne Compatible Photofragmentation Two-Photon Laser-Induced Fluorescence Instrument for Measuring Background Tropospheric Levels of NO, NO x, and NO 2, Sandholm, S., J. Bradshaw, M.O. Rodgers, S. Dorris, and D.D. Davis, J. Geophys. Res. 95, 10155-10161, 1990. [54]

• Atmospheric Ammonia Measurement Using a VUV/Photofragmentation Laser-Induced Fluor-escence Technique, Schendel, J. S., R.E. Stickel, C.A. Van Dijk, S.T. Sandholm, D.D. Davis, and J.D. Bradshaw, Appl. Opt., 29, 4924-4937, 1990. [20]

• A UV Photofragmentation/Laser-Induced Fluorescence Sensor of the Atmospheric Detection of HONO, Rodgers, M. O., and D. D. Davis, Environ. Sci. & Technol., 23, p. 1106, 1989. [16]

• A Two-Photon Laser-Induced Fluorescence Instrument for the Detection of Atmospheric NO, Bradshaw, J. D., M. O. Rodgers, S. T. Sandholm, S. KeSheng, and D. D. Davis, J. Geophys. Res., 90, p. 12,861, 1985. [53]

• A Two- λ Laser-Induced Fluorescence Instrument for the Detection of Atmospheric OH, Rodgers, M. O., J. D. Bradshaw, S. T. Sandholm, and D. D. Davis, J. Geophys. Res., 90, p. 12,819, 1985. [34]

• Sequential Two-Photon Laser-Induced Fluorescence: A New Technique for Detecting Hydroxyl Radicals, Bradshaw, J. D., M. O. Rodgers, and D. D. Davis, Appl. Optics, 23, p. 2134, July 1, 1984. [22]

• Single-Photon/Laser-Induced Fluorescence Detection of NO and SO 2 Under Conditions of Atmospheric Composition and Pressure, Bradshaw, J. D., M. O. Rodgers, and D. D. Davis, Appl. Optics, 21, p. 2493, 1982. [20]

• Sequential Two-Photon Laser-Induced Fluorescence, A New Method for Detecting Atmospheric Trace Levels of NO, Bradshaw, J. D., and D.D. Davis, Optics Letts. 7, No. 5, p. 224, 1982. [20]

• Photofragmentation-Laser Induced Fluorescence: A New Method for Detecting Atmospheric Trace Gases, Rodgers, M. O., K. Asai, and D. D. Davis, Appl. Optics, 19, 3597, 1980. [31]

• An Airborne Laser Induced Fluorescence System for Measuring OH and Other Trace Gases in the Parts-Per-Quadrillion to Parts-Per-Trillion Range, Davis, D. D., W. S. Heaps, D. Philen, M.O. Rodgers, A. Nelson and A. J. Moriarty, Review of Scientific Instruments, 50, 1505, 1979. [36]

• A Flash Photolysis Resonance Fluorescence Kinetics Study: Temperature Dependence on the Reaction of OH with CO and CH 4, Davis, D. D., R. Schiff and S. Fischer, J. Chem. Phys., 61, No. 5, p. 2213, 1974. [99]

• A Flash Photolysis Resonance Fluorescence Study of the Reactions of Atomic Hydrogen and Molecular Oxygen: H + O 2 + M HO 2 + M., Wong, W., and D.D. Davis, Int. J. Chem. Kin., VI, p. 401, 1974. [58]

• A Laser Flash Photolysis Resonance Fluorescence Kinetic Study: Reaction of O( 3P) with O 3, Davis, D. D., W. Wong and J. Lephardt, Chem. Phys. Lett., 22, p. 273, 1973. [41]

• Sulfur Atoms: II. Rate Parameters for Reaction of S( 3P) with C 2H 4, Davis, D. D., W. Braun, M. Pilling and R. Klemm, Int. J. Chem. Kin., VI, p. 383, 1972. [22]

• Absolute Rate Constants for Reaction of Atomic Oxygen with 1-Butene Over the Temperature Range of 259 to 493 k, Huie, R., J. Herron and D. D. Davis, J. Phys. Chem., 75, p. 3902, 1971. [28]

• A Review of Two New Techniques for Determining Absolute Reaction Rates for Atomic Species, Davis, D. D., W. Braun and A. M. Bass, Chem. Eng. News, 47, No. 1, p. 37, 1969. [0]

• Kinetic Spectroscopic Studies of C1( 2P 3/2 2 ) in the Vacuum Ultraviolet, Donovan, R. D., D. Husain, D. D. Davis, A. N. Bass and W. Braun, J. Chem. Phys., 50, p. 4115, 1969. [27]

• Intense Vacuum Ultraviolet Atomic Line Sources, Davis, D. D., and W. Braun, Appl. Optics, 7, p. 2071, 1968. [126]

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