3904
P. Chutayothin, H. Ishida / Polymer 52 (2011) 3897e3904
[29] Tuzun A, Kiskan B, Alemdar N, Erciyes AT, Yagci Y. J Polym Sci. Part A Polym
5. Conclusions
Chem 2010;48:4279e84.
[30] Aydogan B, Sureka D, Kiskan B, Yagci Y. J Polym Sci. Part A Polym Chem 2010;
48:5156e62.
[31] Agag T, Geiger S, Alhassan SM, Qutubuddin S, Ishida H. Macromolecules 2010;
43:7122e7.
[32] Yaganeh H, Jangi A. Polym Intern 2010;59:1375e83.
[33] Baqar M, Agag T, Ishida H. Polymer 2011;52:307e17.
A facile 31P NMR technique has been utilized to provide detailed
structural information of the benzoxazine product, based on the
assignment of the model compounds. We found the evidence of
desired Mannich structure from polymerization of benzoxazine
only if we have a proper time and temperature. If a large amount of
catalyst/initiator was added and also polymerized at too low
a temperature, evidence of other compounds was observed.
Investigation of the polymer from Mannich polycondensation
confirms the possibility of this molecule to undergo longer chain.
[34]
Kimura H, Matsumoto A, Sugito H, Hasegawa K, Ohtsuka K, Fukuda A. J Appl
Polym Sci 2001;79:555e65.
[35] Kiskan B, Colak D, Muftuoglu AE, Cianga I, Yagci Y. Macromol Rapid Commun
2005;26:819e24.
[36] Ergin M, Kiskan B, Gacal B, Yagci Y. Macromolecules 2007;40:4724e7.
[37] Liu YL, Lin GC, Wu CS. J Polym Sci Part A Polym Chem 2007;45:949e54.
[38] Kiskan B, Demiray G, Yagci Y. J Polym Sci. Part A-Polym Chem 2008;46:
3512e8.
[39] Kukut M, Kiskan B, Yagci Y. Designed Monom Polym 2009;12:167e76.
[40] Li SF. Chin Chem Lett 2010;21:868e71.
References
[41] Koz B, Kiskan B, Yagci Y. Polym Bull 2011;66:165e74.
[42] Yildirim A, Kiskan B, Demirel AL, Yagci Y. Eur Polym J 2006;42:3006e14.
[43] Nakamura M, Ishida H. Polymer 2009;50:2688e95.
[44] Qi HM, Pan GY, Zhuang YQ, Huang FR, Du L. Polym Eng Sci 2010;50:751e7.
[45] Riess G, Schwob LJ, Guth G, Roche M, Lande B. In: Culbertson MB, McGrath EJ,
editors. Advances in Polymer Science. New York: Plenum; 1986. p. 27e49.
[46] Laobuthee A, Chirachanchai S, Ishida H, Tashiro K. J Am Chem Soc 2001;123:
9947e55.
[1] Ning X, Ishida H. J Polym Sci. Polym Phys 1994;32:921e7.
[2] Shen SB, Ishida H. Polym Comp 1996;17:710e9.
[3] Ishida H, Low HY. Macromolecules 1997;30:1099e106.
[4] Ishida H, Allen DJ. J Polym Sci Phys Ed 1996;34:1019e30.
[5] Ishida H, Allen DJ. Polymer 1996;37:4487e95.
[6] Low HY, Ishida H. J Polym Sci. Part B Polym Phys 1998;36:1935e46.
[7] Liu JP, Ishida H. In: Salamone JC, editor. The Polymeric Materials Encyclopedia.
Florida: CRC Press; 1996. p. 484e94.
[47] Tomono T, Hasegawa E, Tsuchida E. J Polym Sci. Poly Chem Ed 1974;12:953.
[48] Hodgkin JH. J Polym Sci. Part A Polym Chem 1986;24:3117e27.
[49] Hodgkin JH. Aust J Chem 1984;37:2371e8.
[50] Hodgkin JH. Chem Ind (London); 1979:153e6.
[51] Hodgkin JH, Eibl R. React Polym 1985;3:83e9.
[52] Salem NM, Ebraheem KAK, Mubarak MS. React Funct Polym 2004;59:63e9.
[53] Atta AM, Abdou MI, Elsayted AAA, Ragab ME. Prog Org Coat 2008;63:372e6.
[54] Raj MM, Raj LM, Shah TB, Patel PM. J Therm Anal Calorim 2010;101:1003e9.
[55] Chan PK, Argyropoulos SD, White MD, Yeager WG, Hay SA. Macromolecules
1994;27:6371e5.
[56] Brevard C, Granger P. Handbook of High Resolution Multinuclear NMR. New
York: John Wiley and Sons; 1981. 102 pp.
[57] Archipov Y, Argyropoulos DS, Bolker HI, Heitner C. J Wood Chem Technol
1991;11:137e57.
[58] Archipov Y, Argyropoulos DS, Bolker HI, Heitner C. Carbohydr Res 1991;220:
49e61.
[59] Argyropoulos DS, Bolker HI, Heitner C, Archipov Y. Holzforschung 1993;47:
50e6.
[60] Argyropoulos DS. J Wood Chem Technol 1994;14:45e63.
[61] Chutayothin P, Ishida H. Eur Polym J 2009;45:1493e505.
[62] Goward GR, Sebastiani D, Schnell I, Spiess HW, Kim HD, Ishida H. J Am Chem
Soc 2003;125:5792e800.
[63] Dargaville TR, De Bruyn PJ, Lim ASC, Looney MG, Potter AC. J Polym Sci Part A
Polym Chem 1997;35:1389e98.
[8] Nair CPR. Prog Polym Sci 2004;29:401e98.
[9] Takeichi T, Agag T. High Perform Polym 2006;18:777e97 (2006).
[10] Ghosh NN, Kiskan B, Yagci Y. Prog Polym Sci 2007;32:1344e91.
[11] Takeichi T, Kawauchi T, Agag T. Polym J 2008;40:1121e31.
[12] Yagci Y, Kiskan B, Gosh NN. J Polym Sci Part A Polym Chem 2009;47:5565e76.
[13] Kiskan B, Ghosh N.N., Yagci Y. Polym Intern. in press.
[14] Liu JP, Ph.D. thesis, Case Western Reserve University, Cleveland, Ohio, May
1995.
[15] Takeichi T, Kano T, Agag T. Polymer 2005;46:12172e80.
[16] Chernykh A, Liu JP, Ishida H. Polymer 2006;47:7664e9.
[17] Agag T, Takeichi T. J Polym Sci Part A Polym Chem 2007;45:1878e88.
[18] Velez-Herrera P, Doyama K, Abe H, Ishida H. Macromolecules 2008;41:
9704e14.
[19] Nagai A, Kamei Y, Wang XS, Omura M, Sudo A, Nishida H, Kawamoto E,
Endo T. J Polym Sci. Part A-Polym Chem 2008;46:2316e25.
[20] Kiskan B, Yagci Y, Ishida H. J Polym Sci. Part A Polym Chem 2008;46:414e20.
[21] Chou CI, Liu YL. J Polym Sci. Part A Polym Chem 2008;46:6509e17.
[22] Gong W, Zeng K, Wang L, Zheng SX. Polymer 2008;49:3318e26.
[23] Chernykh A, Agag T, Ishida H. Polymer 2009;50:382e90.
[24] Chernykh A, Agag T, Ishida H. Macromolecules 2009;42:5121e7.
[25] Kiskan B, Aydogan B, Yagci Y. J Polym Sci Part A Polym Chem 2009;47:804e11.
[26] Wang L, Gong W, Zheng SX. Polym Intern 2009;58:124e32.
[27] Chaisuwan T, Komalwanich T, Luangsukrerk S, Wongkasemjit S. Desalination
2010;256:108e14.
[64] Wang YX, Ishida H. J Appl Polym Sci 2002;86:2953e66.
[28] Li Y, Zheng SX. J Polym Sci. Part B Polym Phys 2010;48:1148e59.