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Designed Monomers and Polymers Volume 17, 2014 - Issue 8
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Articles

Synthesis and characterization of novel nanostructured, organosoluble, thermally stable and wholly aromatic poly(amide-imide)s from a new diimide-diacid monomer by direct polycondensation

Abolfath ParhamiChemistry Department, Payame Noor University, 19395-4679Tehran, I. R. IranCorrespondence[email protected]
,
Sajad Shojai NasabChemistry Department, Payame Noor University, 19395-4679Tehran, I. R. Iran
,
Mohsen AbbasiChemistry Department, Payame Noor University, 19395-4679Tehran, I. R. Iran
,
Roholah JafarazadChemistry Department, Payame Noor University, 19395-4679Tehran, I. R. Iran
&
Razyeh bahmaniChemistry Department, Payame Noor University, 19395-4679Tehran, I. R. Iran
Pages 736-745 | Received 02 Dec 2013, Accepted 22 Apr 2014, Published online: 04 Jun 2014

References

  • Hajibeygi M, Shabanian M, Khodaei-Tehrani M. Synthesis and characterization of new organosoluble poly(amide-imide)s with good thermal properties containing photosensitive and bicyclo segments in the main chain. Des. Monomers Polym. 2011;14:617–633.
  • Bessonov MI, Zubkov VA, editors. Polyamic acid and polyimides: synthesis, transformation and structure. Boca Raton (FL): CRC Press; 1993.
  • Ghosh MK, Mittal KL, editors. Polyimides: fundamentals and applications. New York (NY): Marcel Dekker; 1996.
  • Sachdev HS, Khojasteh MM, Feger C, editors. Advances in polyimides and low dielectric polymers. New York (NY): Society of Plastic Engineers; 1999.
  • Mallakpour S, Zeraatpisheh F. Novel heat resistant nanostructure poly(amide–imide)s containing new TMA-based diacid via conventional polycondensation reaction in an ionic green medium: synthesis, morphology, and thermal properties. Des. Monomers Polym. 2013;16:313–322.
  • Ghaemy M, Alizadeh R, Behmadi H. Synthesis of soluble and thermally stable polyimide from new diamine bearing N-[4-(9H-carbazol-9-yl)phenyl] formamide pendent group. Eur. Polym. J. 2009;45:3108–3115.
  • Yang CP, Lin JH. Synthesis and properties of aromatic polyamides derived from 1,7-bis(4-aminophenoxy)naphthalene and various aromatic dicarboxylic acids. J. Polym. Sci. Part A: Polym. Chem. 1996;34:341–348.
  • Akbarian-Feizi L, Mehdipour-Ataei S, Yeganeh H. Investigation on the preparation of new sulfonated polyimide fuel cell membranes in organic and ionic liquid media. Int. J. Polym. Mater. 2014;63:149–160.10.1080/00914037.2013.812086
  • Bruma M, Hamciuc E, Sava I, Hamciuc C, Iosip MD, Robison J. Compared properties of polyimides based on benzophenonetetracarboxylic dianhydride. Rev. Roum. Chim. 2003;48:629–638.
  • Imai Y. Recent advances in synthesis of high-temperature aromatic polymers. React. Funct. Polym. 1996;30:3–15.
  • Wang XL, Li YF, Gong CL, Ma T, Yang FC. Synthesis and properties of new pyridine-bridged poly(ether-imide)s based on 4-(4-trifluoromethylphenyl)-2,6-bis[4-(4-aminophenoxy)phenyl]pyridine. J. Fluorine Chem. 2008;129:56–63.
  • Calderón V, García FC, De La Peña JL, Maya EM, García JM. Synthesis and characterization of new aromatic polyamides bearing crown ethers or their dipodal counterparts in the pendant structure. I. Benzo-12-crown-4 and ortho-bis(2-ethoxyethoxy)benzene. J. Polym. Sci. Part A: Polym. Chem. 2006;44:2270–2281.
  • Maya EM, Lozano AE, de la Campa JG, de Abajo J. Soluble polyamides and polyimides functionalized with benzo-15-crown-5-pendant groups. Macromol. Rapid Commun. 2004;25:592–597.
  • Hsiao SH, Chen CW, Liou GS. Novel aromatic polyamides bearing pendent diphenylamino or carbazolyl groups. J. Polym. Sci. Part A: Polym. Chem. 2004;42:3302–3313.
  • San-José N, Gómez-Valdemoro A, García FC, Serna F, García JM. Aromatic polyamides with pendant urea moieties. J. Polym. Sci. Part A: Polym. Chem. 2007;45:4026–4036.
  • Pal RR, Patil PS, Salunkhe MM, Maldar NN, Wadgaonkar PP. Synthesis and characterization of aromatic polyamides containing an s-triazine ring with thiophenoxy linkages. Polym. Int. 2005;54:569–575.
  • Haba O, Seino H, Aoki K, Iguchi K, Ueda M. Synthesis of ordered polymer by direct polycondensation. VIII. Ordered polymer from two nonsymmetric monomers. J. Polym. Sci. Part A: Polym. Chem. 1998;36:2309–2314.10.1002/(ISSN)1099-0518
  • Sava I, Bruma M. Kinetics of Temperature-induced and Reaction-induced phase separation studied by modulated temperature DSC. Macromol. Symp. 2006;239:36–41.
  • Sava I, Bruma M, Ronova I. The influence of conformational parameters on some physical properties of polyamides containing pendant acetoxybenzamide groups. High Perform. Polym. 2004;16:435–446.
  • Jung Y, Lee J, Lee S, Cho H, Shim H. Fluorene copolymers containing bithiophene/2,5- or 2,6-pyridine units: A study of their optical, electrochemical, and electroluminescence properties. J. Polym. Sci. Part A: Polym. Chem. 2006;44:4611–4620.10.1002/pola.v44:15
  • Mehdipour-Ataei S, Heidari H. Synthesis and characterization of novel soluble and thermally stable polyamides based on pyridine monomer. Macromol. Symp. 2003;193:159–168.
  • Li L, Kikuchi R, Kakimoto M, Jikei M, Takahashi A. Synthesis and characterization of new polyimides containing nitrile groups. High Perform. Polym. 2005;17:135–147.
  • Tian XY, Yao J, Zhang X, Li M, Liu W, Qiao C, Yu D. New optically active poly(amide-imide)s based on N, N'-(pyromellitoyl)-bis-L-amino acid and methylene diphenyl-4,4'-diisocyanate: synthesis and characterization. Des. Monomers Polym. 2014;17:201–207.
  • Sarkar A, Honkhambe PN, Avadhani CV, Wadgaonkar PP. Synthesis and characterization of poly(amide-imide)s containing pendent flexible alkoxy chains. High Perform. Polym. 2005;17:3646–3654.
  • Dezern JF. Proc. Am. Chem. Soc. 1990;63:361.
  • Beltramo M. Eng. Plast. 1993;6:40.
  • Liaw DJ, Chen WH. High glass transitions of novel organosoluble polyamide-imides based on noncoplanar and rigid diimide-dicarboxylic acid. Polym. Degrad. Stabil. 2006;91:1731–1739.
  • Yang CP, Su YY. Fluorinated aromatic polyamides and poly(amide-imide)s: synthesis and properties. Macromol. Chem. Phys. 2005;206:1947–1958.
  • Dai L. Polymer nanostructures. In: Nalwa HS, editor. Encyclopedia of nanoscience and nanotechnology. Stevenson Ranch (CA): American Scientific Publishers; 2004. p. 763–790.
  • Livi S, Duchet-Rumeau J, Gerard JF. Application of supercritical CO2 and ionic liquids for the preparation of fluorinated nanocomposites. J. Colloid Interface Sci. 2011;369:111–116.
  • Mallakpour S, Zadehnazari A. Synergic effects of molten ionic liquid and microwave irradiation in preparation of optically active nanostructured poly(amide-imide)s containing amino acid and dopamine moiety. Polym. Plast. Technol. Eng. 2012;51:1090–1096.
  • Mallakpour S, Dinari M. Novel nanostructure amino acid-based poly(amide–imide)s enclosing benzimidazole pendant group in green medium: fabrication and characterization. Amino Acids. 2012;43:1605–1613.
  • Shujiang Z, Yanfeng L, Daxue Y, Xiaolong W. Study on synthesis and characterization of novel polyimides derived from 2,6-Bis(3-aminobenzoyl) pyridine. Eur. Polym. J. 2005;41:1097–1107.
  • Yamazaki N, Matsumoto M, Higashi F. Studies on reactions of the N-phosphonium salts of pyridines. XIV. Wholly aromatic polyamides by the direct polycondensation reaction by using phosphites in the presence of metal salts. J. Polym. Sci. Polym. Chem. Ed. 1975;13:1373–1380.10.1002/pol.1975.170130609
  • Zhang M, Wang Z, Gao L, Ding M. Polyimides from isomeric diphenylthioether dianhydrides. J. Polym. Sci. Part A: Polym. Chem. 2006;44:959–967.
  • Ania F, Baltá-Calleja FJ, Flores A, Michler GH, Schol- tyssek S, Khariwala D, Hiltner A, Baer E, Rong L, Hsiao BS. Nanostructure and crystallization phenomena in multilayered films of alternating iPP and PA6 semicrystalline polymers. Eur. Polym. J. 2012;48:86–96.
  • Curiel MMLG. (Polymer-inorganic nanocomposites [dissertation]. Netherlands: University of Twente; 2004.
  • Van Krevelen DW. Some basic aspects of flame resistance of polymeric materials. Polymer. 1975;16:615–620.
  • Johnson PR. A general correlation of the flammability of natural and synthetic polymers. J. Appl. Polym. Sci. 1974;18:491–504.

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