Grafting studies onto cellulose by atom-transfer radical polymerization

Styrene (Sty), methyl methacrylate (MMA), methacrylamide (MAm) and acrylomorpholine (AcM) were grafted onto powder cellulose by atom‐transfer radical polymerization. Cellulose chloroacetate (Cell‐ClAc), as a macro‐initiator, was first prepared by the reaction of chloroacetyl chloride with primary al...

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Published in:Polymer international 2005-02, Vol.54 (2), p.342-347
Main Authors: Coskun, Mehmet, Temüz, Mehmet Mürşit
Format: Article
Language:English
Subjects:
Applied sciences
atom transfer radical polymerization
cellulose
Cellulose and derivatives
Exact sciences and technology
graft copolymer
Natural polymers
Physicochemistry of polymers
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description Styrene (Sty), methyl methacrylate (MMA), methacrylamide (MAm) and acrylomorpholine (AcM) were grafted onto powder cellulose by atom‐transfer radical polymerization. Cellulose chloroacetate (Cell‐ClAc), as a macro‐initiator, was first prepared by the reaction of chloroacetyl chloride with primary alcoholic OH groups on powder cellulose. CuBr and 1,2‐dipiperidinoethane were used as a transition‐metal compound and as a ligand, respectively. These reactions were monitored by FT‐IR and weight increase in Cell‐ClAc. In case of styrene, although some weight increase occurred, no evidence of grafting could be observed in the FT‐IR spectrum, while there were strong evidence of grafting with MMA, MAm and AcM. Cell‐graft‐MAm, Cell‐graft‐AcM and Cell‐graft‐MMA showed new carbonyl bands at 1665, 1640 and 1735 cm−1, respectively. Dye‐uptake and dye‐absorption properties of cellulose, for alizarin yellow (basic dye) and bromocresol green (acidic dye), and its moisture‐ and water‐uptake capacities improved with the grafting, but some decrease was observed in thermal stability. Copyright © 2004 Society of Chemical Industry
doi_str_mv 10.1002/pi.1684
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Cellulose chloroacetate (Cell‐ClAc), as a macro‐initiator, was first prepared by the reaction of chloroacetyl chloride with primary alcoholic OH groups on powder cellulose. CuBr and 1,2‐dipiperidinoethane were used as a transition‐metal compound and as a ligand, respectively. These reactions were monitored by FT‐IR and weight increase in Cell‐ClAc. In case of styrene, although some weight increase occurred, no evidence of grafting could be observed in the FT‐IR spectrum, while there were strong evidence of grafting with MMA, MAm and AcM. Cell‐graft‐MAm, Cell‐graft‐AcM and Cell‐graft‐MMA showed new carbonyl bands at 1665, 1640 and 1735 cm−1, respectively. Dye‐uptake and dye‐absorption properties of cellulose, for alizarin yellow (basic dye) and bromocresol green (acidic dye), and its moisture‐ and water‐uptake capacities improved with the grafting, but some decrease was observed in thermal stability. 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Dye‐uptake and dye‐absorption properties of cellulose, for alizarin yellow (basic dye) and bromocresol green (acidic dye), and its moisture‐ and water‐uptake capacities improved with the grafting, but some decrease was observed in thermal stability. 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subjects Applied sciences
atom transfer radical polymerization
cellulose
Cellulose and derivatives
Exact sciences and technology
graft copolymer
Natural polymers
Physicochemistry of polymers
title Grafting studies onto cellulose by atom-transfer radical polymerization
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