Main Page
About Science
Faculty Deanship
Letter of Dean
Overview of Deanship
Vice Deans
Vice Dean
Letter of Vice-dean
Overview of Vice-deanship
Vice Dean for Graduate Studies
Letter of Vice Dean for Graduate Studies
Overview of Vice Dean of Postgraduate Studies
Research and Innovation Unit
Vice Dean for Girls Campus
Faculty Management
Letter of Managing Director-Boys Campus
Letter of Managing Director-Girls Campus
Overview of Management
Educational Affairs
Males Campus
Staff
Females Campus
Contact Us
Research
عربي
English
About
Admission
Academic
Research and Innovations
University Life
E-Services
Search
Faculty of Sciences
Document Details
Document Type
:
Article In Journal
Document Title
:
Grafting onto carbohydrate polymer using novel potassium persulfate/tetramethylethylene diamine redox system for initiating grafting
Grafting onto carbohydrate polymer using novel potassium persulfate/tetramethylethylene diamine redox system for initiating grafting
Subject
:
Chemistry
Document Language
:
English
Abstract
:
Starch as one of the most abundant, renewable, low-cost, and biodegradable carbohydrate polymers worldwide suffers from some drawbacks: The most important one is that it lacks properties of synthetic polymers. So, modification of starch by graft copolymerization will provide a substantial modification route to alter physical and chemical properties of starch, thereby increasing its utilization, by attaching a flexible synthetic polymer onto the rigid natural polysaccharide backbone without greatly changing the latter. In addition to the main disadvantage of the above technique, the high percentage of homopolymer and low percentage of grafting are other disadvantages. At this point, our research team focused on how to maximize the graft yields and graft reaction efficiency percentage, minimize the homopolymer percentage, as well as enhance the water solubility of the prepared copolymers. Based on the results obtained, appropriate conditions for grafting methacrylic acid onto pregelled starch were established and the graft yield was higher under the following conditions: 10 mmol/L potassium persulfate (KPS); 8 mmol/L tetramethylethylene diamine (TMEDA) 50% methacrylic acid concentration (based on weight of substrate); liquor ratio, 10; reaction time, 60 min; and polymerization temperature, 60°C. On the other hand, grafting was significantly enhanced by adding Fe3+, Cu2+, and Li+ in the grafting media and it follows the following order: Fe3+ > Cu2+ > Li+, in addition to the solubility percentage. Approximately 37.5% graft yield and 75% graft reaction efficiency as well as 25% homopolymerization were obtained when methacrylic acid was graft copolymerized onto pregelled starch as a reactive carbohydrate polymer using a new redox initiation system, namely KPS/TMEDA redox pair. Furthermore, a notable enhancement was observed in solubility percentage of grafted samples with lower graft yields than that of the higher one.
ISSN
:
0730-6679
Journal Name
:
Advances in Polymer Technology
Volume
:
30
Issue Number
:
2
Publishing Year
:
1432 AH
2011 AD
Article Type
:
Article
Added Date
:
Wednesday, June 6, 2012
Researchers
Researcher Name (Arabic)
Researcher Name (English)
Researcher Type
Dr Grade
Email
Kh M Mostafa
Mostafa, Kh M
Researcher
Doctorate
kh_mostafa@hotmail.com
عبدالرحيم عبدالرحمن سمرقندي
Samarkandy, Abdul Rahim Abdul-Rahman
Researcher
Doctorate
kandy@kau.edu.sa
Azza A El-Sanabary
El-Sanabary, Azza A
Researcher
Doctorate
Files
File Name
Type
Description
33523.pdf
pdf
Abstract
Back To Researches Page