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Dahlia M Haynes

from Orangeburg, SC
Age ~46
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Also known as:
Dahlia N Haynes
Phone and address:
980 Peasley St, Orangeburg, SC 29115
(803) 536-0259
Related to:
John HaynesBeverly A Moore, 49Beverly Caulfield, 65Hazel Yates, 78Dale Mcrae, 56
Connected to:
Abbie S Haynes, 72Adrianna R Haynes, 29Alessandro L Haynes, 56Alicia Haynes, 51Antoinette D Haynes, 60Antonio J Haynes, 43Ariel Haynes, 32Auntrell C Haynes, 35Baker A Haynes, 59Barton F Haynes, 77

Dahlia Haynes Phones & Addresses

  • 980 Peasley St, Orangeburg, SC 29115 (803) 536-0259
  • 4022 Glenwood Rd, Brooklyn, NY 11210
  • 2036 N Prospect Ave UNIT 307, Milwaukee, WI 53202
  • Central, SC
  • North Charleston, SC
  • Plymouth, MN
  • 980 Peasley St, Orangeburg, SC 29115 (803) 629-3229

Work

Company: Carnegie mellon university Apr 2009 Position: Post-doctoral research associate

Education

School / High School: CLEMSON UNIVERSITY- Clemson, SC 2008 Specialities: Ph.D. in Organic Chemistry / Polymer Science

Skills

Organic reactions-range of reactions tow... • H2O and O2 sensitive • Soxhlet extractions etc) Polymerizat... • ROP • GRIM Standard organic lab techniques... • 2996 UV and 2410 RI alliance detector)... • FTIR • GC-MS • TGA (Mettler-Toledo and TA instruments) ... • AFM • 4-point probe station for conductivity • semiconductor parameter analysis station...

Emails

d***[email protected]

Resumes

Resumes

Dahlia Haynes Photo 1

Dahlia Haynes

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Dahlia Haynes Photo 2

Dahlia Haynes Pittsburgh, PA

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Work:
CARNEGIE MELLON UNIVERSITY

Apr 2009 to 2000
Post-doctoral research associate
CLEMSON UNIVERSITY
Clemson, SC
Aug 2003 to Dec 2008
Doctoral candidate Graduate Student
Education:
CLEMSON UNIVERSITY
Clemson, SC
2008
Ph.D. in Organic Chemistry / Polymer Science
CLAFLIN UNIVERSITY
Orangeburg, SC
2003
B.S. in Chemistry
Skills:
Organic reactions-range of reactions towards monomer and polymer modifications. (Schlenk lines, H2O and O2 sensitive, Soxhlet extractions etc) Polymerizations-ATRP, ROP, GRIM Standard organic lab techniques- related to the analyzing the performance of materials related to polymer science. Technical Skill and Experience in: Differential Scanning Calorimetry TA Q1000 instruments Gel Permeation Chromatography (Waters Separation 2695 module, 2996 UV and 2410 RI alliance detector) and Wyatt Light Scattering with viscometer Instrument Rheology (Rheometric Scientific ARES rheometer) of polymers-cone and plate geometry Film processing and characterization: Melt and solution processing Microscopy Analysis (Hitachi models SEM NMR, FTIR, GC-MS, TGA (Mettler-Toledo and TA instruments) Cyclic Voltammetry, AFM, 4-point probe station for conductivity, semiconductor parameter analysis station with micro positionsrelated to OFETS mobility testing and solar cell device fabrication

Publications

Us Patents

Copolymers From Lactide

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US Patent:
7754826, Jul 13, 2010
Filed:
Nov 15, 2006
Appl. No.:
11/599993
Inventors:
Dahlia Haynes - Central SC, US
Nilmini Abayasinghe - Spartanburg SC, US
Assignee:
Clemson University - Clemson SC
International Classification:
C08G 63/08
US Classification:
525450, 528354, 528361
Abstract:
Disclosed is a process for producing lactide-based copolymers and copolymers produced by the process. The copolymers are formed by the copolymerization of a lactide monomer with a secondary material. In one embodiment, the secondary material can be derived from renewable resources, providing a product copolymer completely derived from renewable resources. The disclosed materials may display improved hydrolytic and thermal characteristics as compared to previously known lactide-based materials. Exemplary secondary materials that can be copolymerized with lactide can include polyhydroxy alkanoates, long chain primary alcohols, and depsipeptides.

Fluorinated Lactide-Based Copolymers

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US Patent:
7695795, Apr 13, 2010
Filed:
Mar 7, 2008
Appl. No.:
12/044403
Inventors:
Dennis W. Smith - Seneca SC, US
Dahlia Haynes - Central SC, US
Amit K. Naskar - Knoxville TN, US
International Classification:
C08G 63/08
US Classification:
428 98, 428364, 525450
Abstract:
Disclosed is a process for producing lactide-based copolymers and the copolymers produced by this process. Disclosed copolymers are formed in one embodiment through the copolymerization of a lactide monomer with a fluorinated diol, for example a perfluorinated polyether monomer, oligomer or copolymer. The disclosed materials may display improved mechanical characteristics, hydrolytic characteristics, and thermal characteristics as compared to previously known lactide-based materials.
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Dahlia M Haynes from Orangeburg, SC, age ~46 Get Report