Yıl 2015,
Cilt: 36 Sayı: 3, 1664 - 1673, 13.05.2015
Roghayeh Soltanmoradi
,
Mohammad Hossein Nasirtabrizi
Kaynakça
- Desai manesh, D.B and Reddy, B.S.R. (1985),“ Copolymerization of 2-carboxyphenyl acrylate with styren and n-vinyl-2-pyrrolidone:reactivity ratios, molecular weights and 13CNMR spectra,” Polymer, 27, pp 96-100.
- Soykan, C. and Ahmedzade, M. (2002),“Copolymers of phenylacryl methacrylate with glycidyl methacrylate: synthesis, characterization and determination of reactivity ratios,”J Mac Sci-Pure Appl Chem, 39(6): 591-608.
- Vijayan, P.S. and Penlidis, A. (2002),“ Copolymers of 3,5-dimethylphenyl methacrylate and methyl methacrylate: synthesis, characterization and determination of reactivity ratios,” J Mac Sci-Pure Appl Chem, 39(6) pp 591-608.
- Arshady, R. Ugi, I. (1982),“ Chemical modification of copoly(styrene-2,4,5- trichlorophenyl acrylate) to give polymers which are potentially electroactive”. Angew. Chem, 94, pp 367.
- Pitchumani, S. and Rami Reddy, A.V. (1982),“ Reactivity ratios of ethyl acrylate-n-butyl methacrylat copolymer system by HNMR analysis,” J polym Sci Polym Chem Ed, 20, pp 277-82.
- Bankova, M. and Petrova, Ts. (1998),“ Homo polymers of 5-chloro-8-quinolinyl acrylate and 5-chloro-8-quinolinyl methacrylate and their copolymers with acrylic and methacrylic acid,” Euro Polym J, 2(5), pp 569-78.
- Babazadeh, M. (2006),“ Thermal stability and high glass transition temperature of 4- chloromethyl styrene polymers bearing carbazolyl moieties,” Polym Deg. Stab, 91, pp 3245-3251.
- Babazadeh, M. (2006),“ Synthesis, characterization and thermal behavior study of methyl methacrylate polymers containing 4-carbazole substitutes,” J. Appl. Polym. Sci, 102, pp 4989- 4995.
- Balaji, R. and Grande, D. (2004),“ Photoresponsive polymers having pendant chlorocinnamoly moieties: synthesis, reactivity ratios and photochemical propertis,” Polymer, 45(4), pp 1089-99.
- Arun, A. and Reddy, B.S.R. (2005),“ In vitro drug release studies from the polymeric hydrogels based on HEA and HPMA using 4-{(E)-[3Z]-3-(4-(acryloyloxy)benzylidene)-2- hexylidene] methyl} phenyl acrylate as crosslinker,” 26(10), pp 1185-93.
- Hua, J.L and Yip Lam, J.W. (2006),“ Synthesis, light emission, and photo-cross-linking of luminescent polyacetylenes containing acrylic pendant groups,” Polymer, 47(1), pp 18-22.
- Vijayaraghavan, P.G. and Reddy, B.S.R. (1996),“ Copolymerisation of 4-methoxylphenyl acrylates with glycidyl methacrylate; synthesis for leather industry,” J Appl Polym Sci, 61, pp 936-43.
- Jone selvamalar, CS. And Vijayanand, PS. (2004),“ Homopolymer and copolymers of 4- benzyloxycarbonylphenyl acrylate with methyl methacrylate: synthesis, characterization, reactivity ratios and application as adhesive for leather,” J Appl Polym Sci, 91,pp 3604-12.
Synthesis and polymerization of (4-nitrophenyl) methacrylate and thermal properties
Yıl 2015,
Cilt: 36 Sayı: 3, 1664 - 1673, 13.05.2015
Roghayeh Soltanmoradi
,
Mohammad Hossein Nasirtabrizi
Öz
Abstract. The monomer 4-nitrophenyl methacrylate (NPMA) is synthesized by reaction 4-nitrophenol and methacryloyl choloride. After characterization of this monomer, by IR and 1HNMR spectroscopic technique. The homo-and copolymers of 4-nitrophenyl methacrylate were synthesized with methyl methacrylate (MMA) and styrene (ST) by free radical polymerization using dimethyl formamide (DMF) as a solvent and azobis isobutyronitrile (AIBN) as an initiator at 70±1˚C. The resulting homopolymer and copolymers were characterized by using IR and 1HNMR sepectroscopy. The solubility of the polymers was tested in various polar and non-polar solvents. The thermal behaviour of the present compounds has been determined by means of differential thermal analysis (DTA) and thermogravimetry (TGA) techniques. The glass transition temperature of the poly(NPMA) increase with increase in NPMA content. Thus the thermal stability of the polymers increase with NPMA content.
Kaynakça
- Desai manesh, D.B and Reddy, B.S.R. (1985),“ Copolymerization of 2-carboxyphenyl acrylate with styren and n-vinyl-2-pyrrolidone:reactivity ratios, molecular weights and 13CNMR spectra,” Polymer, 27, pp 96-100.
- Soykan, C. and Ahmedzade, M. (2002),“Copolymers of phenylacryl methacrylate with glycidyl methacrylate: synthesis, characterization and determination of reactivity ratios,”J Mac Sci-Pure Appl Chem, 39(6): 591-608.
- Vijayan, P.S. and Penlidis, A. (2002),“ Copolymers of 3,5-dimethylphenyl methacrylate and methyl methacrylate: synthesis, characterization and determination of reactivity ratios,” J Mac Sci-Pure Appl Chem, 39(6) pp 591-608.
- Arshady, R. Ugi, I. (1982),“ Chemical modification of copoly(styrene-2,4,5- trichlorophenyl acrylate) to give polymers which are potentially electroactive”. Angew. Chem, 94, pp 367.
- Pitchumani, S. and Rami Reddy, A.V. (1982),“ Reactivity ratios of ethyl acrylate-n-butyl methacrylat copolymer system by HNMR analysis,” J polym Sci Polym Chem Ed, 20, pp 277-82.
- Bankova, M. and Petrova, Ts. (1998),“ Homo polymers of 5-chloro-8-quinolinyl acrylate and 5-chloro-8-quinolinyl methacrylate and their copolymers with acrylic and methacrylic acid,” Euro Polym J, 2(5), pp 569-78.
- Babazadeh, M. (2006),“ Thermal stability and high glass transition temperature of 4- chloromethyl styrene polymers bearing carbazolyl moieties,” Polym Deg. Stab, 91, pp 3245-3251.
- Babazadeh, M. (2006),“ Synthesis, characterization and thermal behavior study of methyl methacrylate polymers containing 4-carbazole substitutes,” J. Appl. Polym. Sci, 102, pp 4989- 4995.
- Balaji, R. and Grande, D. (2004),“ Photoresponsive polymers having pendant chlorocinnamoly moieties: synthesis, reactivity ratios and photochemical propertis,” Polymer, 45(4), pp 1089-99.
- Arun, A. and Reddy, B.S.R. (2005),“ In vitro drug release studies from the polymeric hydrogels based on HEA and HPMA using 4-{(E)-[3Z]-3-(4-(acryloyloxy)benzylidene)-2- hexylidene] methyl} phenyl acrylate as crosslinker,” 26(10), pp 1185-93.
- Hua, J.L and Yip Lam, J.W. (2006),“ Synthesis, light emission, and photo-cross-linking of luminescent polyacetylenes containing acrylic pendant groups,” Polymer, 47(1), pp 18-22.
- Vijayaraghavan, P.G. and Reddy, B.S.R. (1996),“ Copolymerisation of 4-methoxylphenyl acrylates with glycidyl methacrylate; synthesis for leather industry,” J Appl Polym Sci, 61, pp 936-43.
- Jone selvamalar, CS. And Vijayanand, PS. (2004),“ Homopolymer and copolymers of 4- benzyloxycarbonylphenyl acrylate with methyl methacrylate: synthesis, characterization, reactivity ratios and application as adhesive for leather,” J Appl Polym Sci, 91,pp 3604-12.