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Anne Buyle Padias

from Tucson, AZ
Age ~75

Anne Padias Phones & Addresses

  • 3101 Shumaker Dr, Tucson, AZ 85741 (520) 882-9338 (520) 888-6174
  • 931 2Nd St, Tucson, AZ 85701 (520) 882-9338
  • Pittsburgh, PA
  • Chicago, IL
  • Oberlin, OH

Work

Company: The university of arizona 1975 to 1993 Position: Research scientist

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Ghent University 1971 to 1975 Specialities: Organic Chemistry

Skills

Research • Teaching • Higher Education • Organic Chemistry • Curriculum Development • Uv/Vis • Student Affairs • Microsoft Office • College Teaching • Curriculum Design • Powerpoint

Industries

Education Management

Resumes

Resumes

Anne Padias Photo 1

Anne Padias

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Location:
Tucson, AZ
Industry:
Education Management
Work:
The University of Arizona 1975 - 1993
Research Scientist
Education:
Ghent University 1971 - 1975
Doctorates, Doctor of Philosophy, Organic Chemistry
Ghent University 1969 - 1971
Skills:
Research
Teaching
Higher Education
Organic Chemistry
Curriculum Development
Uv/Vis
Student Affairs
Microsoft Office
College Teaching
Curriculum Design
Powerpoint

Business Records

Name / Title
Company / Classification
Phones & Addresses
Anne Padias
Treasurer
FLOWING WELLS EDUCATIONAL FOUNDATION
1556 W Prince Rd, Tucson, AZ 85705
Anne Padias
Secretary
Iskashitaa Refugee Network
Philanthropy · Individual and Family Services, Nsk
1406 E Grant Rd, Tucson, AZ 85719
457 E Downtown St, Tucson, AZ 85701

Publications

Us Patents

Process For The Preparation Of Polybutylene Terephthalate

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US Patent:
43462138, Aug 24, 1982
Filed:
Aug 25, 1980
Appl. No.:
6/181275
Inventors:
Henry K. Hall - Tuscon AZ
Anne B. Padias - Tuscon AZ
Assignee:
Celanese Corporation - New York NY
International Classification:
C08G 6334
US Classification:
528272
Abstract:
In the two stage reaction of terephthalic acid with 1,4-butanediol to produce polybutylene terephthalate in which acid and diol are first subjected to catalytic esterification/oligomerization and the resulting products are thereafter subjected to catalytic polycondensation, the co-production of tetrahydrofuran is significantly reduced by conducting the polycondensation reaction prior to completion of the esterification/oligomerization reaction.

Process For The Preparation Of Polybutylene Terephthalate

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US Patent:
44395973, Mar 27, 1984
Filed:
Apr 16, 1982
Appl. No.:
6/369065
Inventors:
Henry K. Hall - Tucson AZ
Anne B. Padias - Tucson AZ
Assignee:
Celanese Corporation - New York NY
International Classification:
C08G 6334
US Classification:
528272
Abstract:
In the two stage reaction of terephthalic acid with 1,4-butanediol to produce polybutylene terephthalate in which acid and diol are first subjected to catalytic esterification/oligomerization and the resulting products are thereafter subjected to catalytic polycondensation, the co-production of tetrahydrofuran is significantly reduced by conducting the polycondensation reaction prior to completion of the esterification/oligomerization reaction.

Azo-Dye-Doped Photorefractive Polymer Composites For Holographic Testing And Image Processing

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US Patent:
57442673, Apr 28, 1998
Filed:
Sep 10, 1996
Appl. No.:
8/710084
Inventors:
Klaus Meerholz - Tucson AZ
Bernard Kippelen - Tucson AZ
Nasser N. Peyghambarian - Tucson AZ
Scott R. Lyon - Tucson AZ
Henry K. Hall - Tucson AZ
Anne B. Padias - Tucson AZ
Boris L. Volodin - Tucson AZ
Assignee:
Arizona Board of Regents acting for and on behalf of University of
Arizona - Tucson AZ
International Classification:
G03H 104
G03C 172
US Classification:
430 1
Abstract:
A photorefractive (PR) device comprises of a layer of a novel photorefractive polymer composite sandwiched inbetween two transparent electrodes. The PR polymer composite comprises a photoconducting polymer, a photosensitizer, a novel second-order, non-linear optical chromophore, and a plasticizer in an amount sufficient to provide the PR polymer composite with a glass transition temperature below about 45. degree. C. The PR polymer composite is capable of internally storing image patterns generated by interfering two coherent light beams inside the material. The PR polymer composite shows high diffraction efficiencies (near 100%) and high net two-coupling gain (>200 cm. sup. -1). The writing of information is reversible. Consequently, the device is suitable for read/write holographic storage and real-time image processing applications, and is capable of being poled at essentially room temperature.
Anne Buyle Padias from Tucson, AZ, age ~75 Get Report