REBECCA LYNN CALHOUN, LPC
Mental Health at Ih 35, Austin, TX
License number
Texas 13970
Category
Mental Health
Type
Mental Health
Address
Address
3000 SOUTH I H 35 STE. 315, Austin, TX 78704
Phone
(512) 444-9922
(512) 444-9926 (Fax)
(512) 444-9926 (Fax)
Personal information
See more information about REBECCA LYNN CALHOUN at radaris.comName
Address
Phone
4104 Val Verde Dr, Georgetown, TX 78628
3503 Willow Springs Rd #A, Austin, TX 78704
3401 W Parmer Ln APT 2816, Austin, TX 78727
27118 Holly Lord, Magnolia, TX 77355
8023 Wever Xing, San Antonio, TX 78250
Professional information
See more information about REBECCA LYNN CALHOUN at trustoria.com
Rebecca Lynn Calhoun, Austin TX
Rebecca Lynn Calhoun, Austin TX
Specialties:
Psychologist
Address:
3000 S Interstate 35, Austin, TX 78704
Rebecca L Calhoun, Austin TX - LPC (Licensed professional counselor)
Rebecca L Calhoun, Austin TX - LPC (Licensed professional counselor)
Specialties:
Counseling
Address:
3000 S Interstate 35 SUITE 315, Austin 78704
(512) 444-9922 (Phone), (512) 444-9926 (Fax)
(512) 444-9922 (Phone), (512) 444-9926 (Fax)
Languages:
English
Photoluminescent Polymetalloles As Chemical Sensors
Photoluminescent Polymetalloles As Chemical Sensors
US Patent:
2005010, May 12, 2005
Filed:
Sep 14, 2002
Appl. No.:
10/244053
Inventors:
Michael Sailor - La Jolla CA, US
William Trogler - Del Mar CA, US
Honglae Sohn - Gwangiu, KR
Rebecca Calhoun - Austin TX, US
William Trogler - Del Mar CA, US
Honglae Sohn - Gwangiu, KR
Rebecca Calhoun - Austin TX, US
International Classification:
G01N021/64
US Classification:
436106000, 436172000
Abstract:
A method to develop inexpensive inorganic polymeric sensors that can provide a sensitivity and selectivity for explosive nitroaromatic compounds. Selectivity is provided by the arrays of 12 different reactive fluorescent sensors to mimic the human olfactory system. The sensors are based on photoluminescence quenching of polymers containing metalloid-metalloid backbones such as Si-Si, Si-Ge, or Ge-Ge. The sensor employs a thin film of photoluminescent copolymers, which is stable in air, water, acids, common organic solvents, and even seawater containing bioorganisms. The detection method involves measurement of the quenching of photoluminescence of the polysilole by the analyte.