Влияние среды на реакционную способность мономеров в синтезе полилактидов и сополимеров акрилонитрила, страница 21
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Copolymerization of L-Lactide and ε-Caprolactone in Supercritical Fluid [текст]/ B. Prabowo, D. H. Choi, S. H. Kim // Macromol. Res. - 2009. - V. 17. - No 8. - P. 575 - 579.[90]Pack, J. W. High Molecular Weight Poly(L-lactide) and Its Microsphere Synthesized inSupercritical Chlorodifluoromethane [текст] / J. W.
Pack, S. H. Kim, S. Y. Park, Y.-W. Lee, Y.H. Kim // Macromolecules. - 2003. - V. 36. - No 20. - P. 7884 - 7886.[91]Pack, J. W. Kinetic and Mechanistic Studies of L-Lactide Polymerization in SupercriticalChlorodifluoromethane [текст] / J. W. Pack, S. H. Kim, S. Y. Park, Y.-W. Lee, Y. H. Kim //Macromolecules. - 2003. - V.
36. - No 24. - P. 8923 - 8930.[92]Pack, J. W. Effects of Pressure and Temperature on the Kinetics of L-Lactide Polymerizationin Supercritical Chlorodifluoromethane [текст] / J. W. Pack, S. H. Kim, S. Y. Park, Y.-W. Lee,Y. H. Kim // Macromolecules. - 2004.
- V. 37 - No 10. - P. 3564 - 3568.[93]Пат. США US6913826B2, МПК C08G63/08, C08G63/64, C08G63/688, C08G63/78,C08G63/81, C08G63/82, C08G63/88, C08L101/16, (IPC1-7): B32B21/02, C08G63/82.Biodegradable polyester polymer and method for preparing the same using compressed gas[текст] / Lee, Y.-W., Kim, S. H., Kim, Y. H., Lim, J. S., Park, J. M., Pack, J. W.; заявительKOREA INST SCI & TECH; заявл. 08.10.2002; опубл.
05.07.2005.[94]Lim, J. S. Cloud Points of Poly(L-lactide) in HCFC-22, HFC-23, HFC-32, HFC-125, HFC143a, HFC-152a, HFC-227ea, Dimethyl Ether (DME), and HCFC-22 + CO2 in the112Supercritical State [текст] / J. S. Lim, J.-Y. Park, Ch. H. Yoon, Y.-W. Lee, K.-P. Yoo // J.Chem. Eng. Data. - 2004. - V. 49. - No 6. - P. 1622 - 1627.[95]Lee, B.-Ch. Effect of Solvent Composition and Polymer Molecular Weight on Cloud Points ofPoly(L-lactide) in Chlorodifluoromethane + Carbon Dioxide [текст] / B.-Ch.
Lee // J. Chem.Eng. Data. - 2003. - V. 48. - No 4. - P. 774 - 777.[96]Kuk, Y.-M. High-Pressure Phase Behavior of Poly(D,L-lactide) in Chlorodifluoromethane,Difluoromethane, Trifluoromethane, and 1,1,1,2-Tetrafluoroethane [текст] / Y.-M. Kuk, B.-Ch.Lee // J. Chem. Eng. Data. - 2002. - V. 47.
- No 3. - P. 575 - 581.[97]www.airliquide.com[98]Kissinger, H. E. Reaction kinetics in differential thermal analysis [текст] / H. E. Kissinger //Anal. Chem. - 1957. - V. 29. - P. 1702 - 1706.[99]Ozawa, T. New method of analyzing thermogravimetric data [текст] / T. Ozawa // Bull. Chem.Soc.
Jpn. - 1965. - V. 38. - P. 1881 - 1886.[100] Moad, G. Living free radical polymerization with reversible addition – fragmentation chaintransfer (the life of RAFT) [текст] / G. Moad, J. Chiefari, B. Chong, J. Krstina, R. Mayadunne,A. Postma, E. Rizzardo, S. H. Thang // Polym. Int. - 2000. - V. 49. - P. 993 - 1001.[101] Moad, G. Living Radical Polymerization by the RAFT Process - A First Update [текст] / G.Moad, E. Rizzardo, S. H.
Thang // Aust. J. Chem. - 2006. - V. 59. - P. 669 - 692.[102] Braunecker, W. A. Controlled/living radical polymerization: Features, developments, andperspectives [текст] / W. A. Braunecker, K. Matyjaszewsk // Prog. Polym. Sci. - 2007. - V. 32.- P. 93 - 146.[103] Moad, G.
Radical additionefragmentation chemistry in polymer synthesis [текст] / G. Moad,E. Rizzardo, S. H. Thang // Polymer. - 2008. - V. 49. - P. 1079 - 1131.[104] Destarac, M. Controlled Radical Polymerization: Industrial Stakes, Obstacles andAchievements [текст] / M. Destarac // Macromol. React. Eng. - 2010. - V. 4. - P.
165 - 179.[105] Ji, B. C. Effect of Low-Temperature Solution Polymerization Conditions of Acrylonitrile onthe Molecular Characteristics of Polyacrylonitrile [текст] / B. C. Ji, H. S. Lee, N. S. Yoon, S.S. Han, W. S. Yoon, J. Lee, W. S. Lyoo // Intern. J. Polymeric Mater. - 2000. - V. 46. - P. 423 434.113[106] Sun, T. Mass DSC/TG and IR Ascertained Structure and Color Change of PolyacrylonitrileFibers in Air/Nitrogen During Thermal Stabilization [текст] / T. Sun, Y. Hou, H.
Wang // J.Appl. Polym. Sci. - 2010. - V. 118. - P. 462 - 468.[107] Byun, H. S. A Study on Phase Behaviour of CO2-Acetonitrile and CO2-Acrylonitrile System atHigh Pressure [текст] / H. S. Byun, Y. S. Kim, J. K. Im // J. of the Korean Ind. Eng.Chemistry. - 1998. - V.
9. - No 6. - P. 924 - 929.[108] Wu, X.-P. Thermo-chemical reactions and structural evolution of acrylamide-modifiedpolyacrylonitrile [текст] / X.-P. Wu, X.-L. Zhang, Ch.-X. Lu, L.-Ch. Li // Chinese J. Polym.Sci. - 2010. - V. 28. - No 3. - P. 367 - 376.[109] Bajaj, P. Solution Polymerization of Acrylonitrile with Vinyl Acids in Dimethylformamide[текст] / P.
Bajaj, K. Sen, S. H. Bahrami // J. Appl. Polym. Sci. - 1996. - V. 59. - P. 1539 1550.[110] Cui, Ch. The Degradation and Prestabilization of Acrylonitrile Copolymers [текст] / Ch. Cui,L. Yu, Ch. Wang // J. Appl. Polym. Sci. - 2010. - V. 117. - P. 1596 - 1600.[111] Yusof, N. Polyacrylonitrile/Acrylamide-Based Carbon Fibers Prepared Using a Solvent-FreeCoagulation Process: Fiber Properties and Its Structure Evolution During Stabilization andCarbonization [текст] / N. Yusof, A.F.
Ismail // Polym. Eng. Sci. - 2012. - V. 360. - P. 360 366.[112] Kakida, H. Mechanism and Kinetics of Stabilization Reaction of Polyacrylonitrile and RelatedCopolymers II. Relationships between Isothermal DSC Thermograms and FT-IR SpectralChanges of Polyacrylonitrile in Comparison with the Case of Acrylonitrile/Methacrylic AcidCopolymer [текст] / H. Kakida, K. Tashiro // Polymer J.
- 1997. - V. 29. - No 4. - P. 353 - 357.[113] Kakida, H. Mechanism and Kinetics of Stabilization Reaction of Polyacrylonitrile and RelatedCopolymers III. Comparison among the Various Types of Copolymers as Viewed fromIsothermal DSC Thermograms and FT - IR Spectral Changes [текст] / H. Kakida, K. Tashiro //Polymer J. - 1997. - V.
29. - No 7. - P. 557 - 562.[114] Kakida, H. Mechanism and Kinetics of Stabilization Reaction of Polyacrylonitrile and RelatedCopolymers IV. Effect of Atmosphere on Isothermal DSC Thermograms and FT - IR SpectralChanges durin Stabilization Reaction of Acrylonitrile/Methacrylic Acid Copolymer [текст] / H.Kakida, K. Tashiro // Polymer J. - 1998. - V. 30.
- No 6. - P. 463 - 469.114[115] Medina-Castillo, A. L. Micrometer and Submicrometer Particles Prepared by PrecipitationPolymerization: Thermodynamic Model and Experimental Evidence of the Relation betweenFlory’s Parameter and Particle Size [текст] / A. L. Medina-Castillo, J. F. Fernandez-Sanchez,A.
Segura-Carretero, A. Fernandez-Gutierrez // Macromolecules. - 2010. - V. 43. - No 13. - P.5804 - 5813.[116] Cooper, A. I. Synthesis of Highly Cross-Linked Polymers in Supercritical Carbon Dioxide byHeterogeneous Polymerization [текст] / A. I. Cooper, W.
P. Hems, A. B. Holmes //Macromolecules. - 1999. - V. 32. - No 7. - P. 2156 - 2166.[117] Cooper, A. I. Synthesis of cross-linked polymer microspheres in supercritical carbon dioxide[текст] / A. I. Cooper, W. P. Hems, A. B. Holmes // Macromolecular Rapid Communications. 1998. - V. 19. - No 7. - P. 353 - 357.[118] Dong, H.
Well-Defined High-Molecular-Weight Polyacrylonitrile via Activators Regeneratedby Electron Transfer ATRP [текст] / H. Dong, W. Tang, K. Matyjaszewski // Macromolecules.- 2007. - V. 40. - No 9. - P. 2974 - 2977.[119] Liu, X. H. Dibenzyl trithiocarbonate mediated reversible addition–fragmentation chain transferpolymerization of acrylonitrile [текст] / X. H. Liu, G. B.
Zhang, X. F. Lu, J. Y. Liu, Y. S. Li //J. Polym. Sci. Polym. Chem. - 2006. - V. 44. - No 1. - P. 490 - 498.[120] Cudero, M. J. C. Synthesis of polyesters as binders for deinkable inks. V. Structural analysisof the polyesterification between o-phthalic anhydride and trimethylolpropane in bulk at 165°Cby high resolution 13C and 1H nuclear magnetic resonance [текст] / M. J. C. Cudero, M.
M. C.López-González, J. M. Barrales-Rienda // Polym. Int. - 1997. - V. 44. - No 1. - P. 61 - 77.[121] Garcia-Rubio, L. H. Bulk polymerization of acrylonitrile. I. An experimental investigation ofthe kinetics of the bulk polymerization of acrylonitrile [текст] / L. H. Garcia-Rubio, A. E.Hamielec // J. Appl. Polym. Sci. - 1979. - V. 23. - P. 1397 - 1411.[122] Dayal, U. Determination of Mark–Houwink constants for polystyrene and polyacrylonitrileterpolymers [текст] / U. Dayal // J. Appl. Polym. Sci. - 1992. - V. 45. - P.
119 - 123.[123] Kawai, T. Analysis of intrinsic viscosity data on polyacrylonitrile in various solvents [текст] /T. Kawai, E. Ida // Kolloid-Zeitschrift und Zeitschrifl fϋr Polymere. - 1963. - V. 194. - No 1. P. 40 - 49.[124] Bercea, M. Solution Properties of Ultrahigh-Molecular-Weight Polymers. 21. ConformationalCharacteristics of Poly(Methyl Methacrylate) [текст] / M. Bercea, C.