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David C Tilotta

from Durham, NC
Age ~63
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Also known as:
David Charles Tilotta
Phone and address:
1816 Carnation Dr, Durham, NC 27703
(919) 596-7585
Related to:
Ryan C Tilotta, 46Terri Lee Tilotta, 63Sally E Tilotta, 70Frank C Tilotta, 55Carol A Tilotta, 89Terri L Tilotta, 59
Connected to:
Anthony J Tilotta, 71Giovanni V Tilotta, 43Lauren Tilotta, 38Robert W Tilotta, 76Robin P Tilotta, 45Roy W TilottamaDavid I Tilove, 79Jonathan B Tilove, 70Thomas E Tilque, 59Brad J Tilsch, 74

David Tilotta Phones & Addresses

  • 1816 Carnation Dr, Durham, NC 27703 (919) 596-7585
  • 101 Yaupon Ct, Holly Springs, NC 27540 (919) 557-7004
  • 514 Belmont Rd, Grand Forks, ND 58201 (701) 775-5771
  • Waco, TX
  • Des Moines, IA
  • Wade, NC

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job inquiries, expertise requests, busin...

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Chemicals

Resumes

Resumes

David Tilotta Photo 1

Professor At North Carolina State University

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Location:
Raleigh-Durham, North Carolina Area
Industry:
Chemicals
Experience:
North Carolina State University (Educational Institution; 10,001 or more employees; Chemicals industry): Professor,  (-) 

Publications

Us Patents

Raman Spectrometer Having Hadamard Electrooptical Mask And Diode Detector

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US Patent:
48568970, Aug 15, 1989
Filed:
Aug 14, 1987
Appl. No.:
7/085530
Inventors:
William G. Fateley - Manhattan KS
David C. Tilotta - Des Moines IA
Assignee:
D.O.M. Associates, Inc. - Manhattan KS
International Classification:
G01N 2165
US Classification:
356301
Abstract:
An improved Raman spectrometer device is provided which provides useful spectral information in situations where Raman spectroscopy has heretofore been unworkable. The spectrometer of the invention makes use of a stationary electrooptical masking device in lieu of conventional slit scanning optics, with the mask being computer controlled to provide a multiplexing function, typically employing Hadamard mathematics. The stationary encoding mask permits use of a relatively inexpensive photodiode detector, as compared with photomultiplier tubes conventionally used in Raman instrumentation. Advantageously, unwanted Rayleigh scattered radiation can be completely eliminated, either by blanking those zones of the mask receiving such radiation, or physically locating the device in such orientation that the Rayleigh scattered radiation does not pass through operative portions of the mask.

Infrared Emission Detection Of A Gas

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US Patent:
54731623, Dec 5, 1995
Filed:
Sep 20, 1993
Appl. No.:
8/123733
Inventors:
Kenneth W. Busch - Waco TX
M. Keith Hudson - Little Rock AR
Marianna A. Busch - Waco TX
Sidney W. Kubala - Angleton TX
David C. Tilotta - Grand Forks ND
Ravishankar Srinivasan - Houston TX
Yunke Zhand - Columbia SC
Assignee:
Baylor University - Waco TX
International Classification:
G01N 2171
G01N 2162
US Classification:
2503416
Abstract:
Apparatus and method for qualitatively and quantitatively analyzing infrared emission from excited molecules in the determination of, for example, total inorganic carbon, chloride and available chlorine in aqueous samples. Methods of exciting the gas-phase, infrared-active molecules to emit radiation include flame excitation, furnace excitation, excitation by electron impact in a gas discharge or excitation by collisions with a vibrationally excited diatomic molecule. The detector is optimized by use of dual beam system with background subtraction capabilities thereby eliminating background noise and fluctuations therein.

Infrared Emission Detection

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US Patent:
52468682, Sep 21, 1993
Filed:
Sep 29, 1989
Appl. No.:
7/415141
Inventors:
Kenneth W. Busch - Waco TX
M. Keith Hudson - Little Rock AR
Marianna A. Busch - Waco TX
Sidney W. Kubala - Hewitt TX
David C. Tilotta - Waco TX
Ravishankar Srinivasan - Waco TX
Assignee:
Research Corporation Technologies, Inc. - Tucson AZ
International Classification:
G01N 2172
US Classification:
436101
Abstract:
Apparatus and method for qualitatively and quantitatively analyzing infrared emission from excited molecules in samples of interest is disclosed. Over the wavelength interval from 1 to 5 um, two strong emission bands are observed with a PbSe detector when organic compounds are introduced into an hydrogen/air flame. The band at 4. 3 um (2326 cm. sup. -1 is due to the asymmetric stretch of carbon dioxide while the band at 2. 7 um is due to both water and carbon dioxide emission. The carbon dioxide emission at 4. 3 um is most intense at the tip of the flame, and increases with the amount of organic compound introduced into the flame. For chromatographic application, an optical filter can be used to isolate the 4. 3 um emission band. The infrared emission detection system finds application in the determination of total inorganic carbon, chloride and available chlorine in aqueous samples.
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David C Tilotta from Durham, NC, age ~63 Get Report