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Polymer Bulletin

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01.04.2010 | Original Paper

Synthesis and characterization of novel comb-type amphiphilic graft copolymers containing polypropylene and polyethylene glycol

verfasst von: Murat Balcı, Abdulkadir Allı, Baki Hazer, Olgun Güven, Kevin Cavicchi, Mukerrem Cakmak

Erschienen in: Polymer Bulletin | Ausgabe 7/2010

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Abstract

Amphiphilic comb-type graft copolymers containing polypropylene (PP) and polyethylene glycol (PEG) have been prepared. Polypropylene-g-polyethylene glycol comb-type thermoplastic amphiphilic copolymers were synthesized by the reaction between chlorinated polypropylene and polyethylene glycol in the presence of a base via a “grafting to” technique. A series of graft copolymers containing PEGs with molecular weights of 600 and 2,000 Da in the range of 4–34 mol% PEG were obtained. The amphiphilic graft copolymers with PEG segments in range between 20 and 30 mol% PEG displayed good film properties with elongation at break 275–440%. The hydrophilicity of the amphiphilic copolymers increases with the increasing PEG content in the copolymer while the mechanical properties decrease. Therefore, PP-g-PEG2000 with PEG contents in the range of 20–30 mol% PEG should be useful for medical and industrial applications where good film properties are needed.

Vorheriger Artikel Preparation and rheological properties of SEM-25 containing associative thickener latexes and their mechanisms of thickening

Nächster Artikel Effect of heating process on the formation of nanoparticles of elastin model polypeptide, (GVGVP)251, by gamma-ray crosslinking

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Förster S, Antonietti M (1998) Amphiphilic block copolymers in structure-controlled nanomaterial hybrids. Adv Mater 10:195–217CrossRef

Alexandridis P, Lindman B (eds) (2000) Amphiphilic block copolymers. Elsevier, Amsterdam

Berlinova IV, Amzil A, Panayotov IM (1992) Synthesis and some properties of graft copolymers with uniform polyoxyethylene side chains. J Macromol Sci Pure Appl Chem A29:975–986

Berlinova IV, Amzil A, Tsvetkova S, Panayotov IM (1994) Amphiphilic graft copolymers with poly(oxyethylene) side chains: synthesis via activated ester intermediates–properties. J Polym Sci A Polym Chem 32:1523–1530CrossRef

Berlinova IV, Panayotov IM (1989) Synthesis of amphiphilic star-shaped and graft copolymers based on polystyrene and poly(ethylene oxide). Makromol Chem 190:1515–1522CrossRef

Wesslen KB, Wesslen B, Bo G (1992) Amphiphilic comb-shaped polymers from poly(ethylene glycol) macromonomers. J Polym Sci A Polym Chem 30:1799–1808CrossRef

Wesslen KB, Wesslen B (1992) Chromatography of amphiphilic graft copolymers. J Polym Sci A Polym Chem 30:355–362CrossRef

Wesslen B, Derand H (1995) Synthesis and characterization of anionic graft copolymers containing poly(ethylene oxide) grafts. J Polym Sci A Polym Chem 33:571–579CrossRef

Erdodi G, Kennedy JP (2006) Amphiphilic conetworks: definition synthesis applications. Prog Polym Sci 31:1–18CrossRef

10.

Velichkova RS, Christova DC (1995) Amphiphilic polymers from macromonomers and telechelics. Prog Polym Sci 20:819–887CrossRef

11.

Butun V, Sonmez S, Yarlıgan S, Taktak FF, Atay A, Butun S (2008) Micelles and ‘reverse micelles’ with a novel water-soluble diblock copolymer. Polymer 49:4057–4065CrossRef

12.

Bütün V, Bannister I, Billingham NC, Sherrington DC, Armes SP (2005) Synthesis and characterization of branched water-soluble homopolymers and diblock copolymers using group transfer polymerization. Macromolecules 38:4977–4982CrossRef

13.

Satu Strandman S, Zarembo A, Darinskii AA, Laurinmaki P, Butcher SJ, Vuorimaa E, Lemmetyinen H, Tenhu H (2008) Effect of the number of arms on the association of amphiphilic star block copolymers. Macromolecules 41:8855–8864CrossRef

14.

Hansen NML, Gerstenberg M, Haddleton DM, Hvilsted S (2008) Synthesis characterization and bulk properties of amphiphilic copolymers containing fluorinated methacrylates from sequential copper-mediated radical polymerization. J Polym Sci A Polym Chem 46:8097–8111CrossRef

15.

Ladmiral V, Melia E, Haddleton DM (2004) Synthetic glycopolymers: an overview. Eur Polym J 40:431–449CrossRef

16.

Walther A, Millard PE, Goldmann AS, Lovestead TM, Schacher F, Barner-Kowollik C, Müller AHE (2008) Bis-hydrophilic block terpolymers via RAFT polymerization: toward dynamic micelles with tunable corona properties. Macromolecules 41:8608–8619CrossRef

17.

Xu R, Winnik MA, Hallet FR, Riess G, Croucher MD (1991) Light-scattering study of the association behavior of styrene–ethylene oxide block copolymers in aqueous solution. Macromolecules 24:87–93CrossRef

18.

Zhao C-L, Winnik MA, Riess G, Croucher MD (1990) Fluorescence probe techniques used to study micelle formation in water-soluble block copolymers. Langmuir 6:514–516CrossRef

19.

Du Prez FE, Goethals EJ, Schue R, Qariouh H, Schue F (1998) Segmented network structures for the separation of water/ethanol mixtures by pervaporation. Polym Int 46:117–125CrossRef

20.

Hu Z, Chen L, Betts DE, Pandya A, Hillmyer MA, DeSimone JM (2008) Optically transparent, amphiphilic networks based on blends of perfluoropolyethers and poly(ethylene glycol). J Am Chem Soc 130:14244–14252CrossRef

21.

Bronstein L, Kramer E, Berton B, Burger C, Forster S, Antonietti M (1999) Successive use of amphiphilic block copolymers as nanoreactors and templates: preparation of porous silica with metal nanoparticles. Chem Mater 11:1402–1405CrossRef

22.

Capek I, Rıza M, Akashi M (1992) On the kinetics of polymerization and copolymerization of poly(oxyethylene) macromonomers and styrene. Makromol Chem Macromol Chem Phys 193:2843–2860

23.

Chen M-Q, Serizawa T, Akashi M (1999) Graft copolymers having hydrophobic backbone and hydrophilic branches. xvi. Polystyrene microspheres with poly(N-isopropylacrylamide) branches on their surfaces: size control factors and thermosensitive behavior. Polym Adv Technol 10:120–126CrossRef

24.

Minoda M, Sawamoto M, Higashimura T (1990) Amphiphilic block copolymers of vinyl ethers by living cationic polymerization. 3. Anionic macromolecular amphiphiles with pendant carboxylate anions. Macromolecules 23:1897–1901CrossRef

25.

Minoda M, Sawamoto M, Higashimura T (1987) Block copolymers of 2-hydroxyethyl vinyl ether and alkyl vinyl ether by living cationic polymerization: new nonionic macromolecular amphiphiles. Macromolecules 20:2045–2049CrossRef

26.

Allı A, Hazer B (2008) Poly(N-isopropylacrylamide) thermoresponsive cross-linked conjugates containing polymeric soybean oil and/or polypropylene glycol. Eur Polym J 44:1701–1713CrossRef

27.

Allı A, Hazer B, Menceloğlu Y, Süzer Ş (2006) Synthesis characterization and surface properties of amphiphilic polystyrene-b-polypropylene glycol block copolymers. Eur Polym J 42:740–750CrossRef

28.

Hazer B, Erdem B, Lenz RW (1994) Styrene polymerization with some new macro or macromonomeric azoinitiators having peg units. J Polym Sci A Polym Chem 32:1739–1746CrossRef

29.

Erciyes AT, Erim M, Hazer B, Yağcı Y (1992) Synthesis of polyacrylamide flocculants with poly(ethylene glycol) segments by redox polymerization. Angew Macromol Chem 200:163–171CrossRef

30.

Hazer B (1992) New macromonomeric initiators (macroinimers): 2. Gelation in bulk polymerization of styrene with macroinimers. Makromol Chem 193:1081–1086CrossRef

31.

Yıldız U, Hazer B, Capek I (1995) Dispersion polymerization of styrene and methyl methacrylate initiated by poly(oxyethylene) macromonomeric azoinitiators. Angew Macromol Chem 231:135–144CrossRef

32.

Hazer B (1995) Grafting on polybutadiene with macro or macromonomer initiators containing poly(ethylene glycol) units. Macromol Chem Phys 196:1945–1952CrossRef

33.

Arslan H, Hazer B (1999) Ceric ion initiation of methyl methacrylate using polytetrahydrofuran diol and polycaprolactone diol. Eur Polym J 35:1451–1455CrossRef

34.

Hedrick JL, Trollsas M, Hawker CJ, Atthoff B, Claesson H, Heise A, Miller RD, Mecerreyes D, Jerome R, Dubois Ph (1998) Dendrimer-like star block and amphiphilic copolymers by combination of ring opening and atom transfer radical polymerization. Macromolecules 31:8691–8705CrossRef

35.

Neugebauer D, Zhang Y, Pakula T, Sheiko SS, Matyjaszewski K (2003) Densely-grafted and double-grafted PEO brushes via ATRP. A route to soft elastomers. Macromolecules 36:6746–6755CrossRef

36.

Macit H, Hazer B (2004) Synthesis of PMMA–PTHF–PMMA and PMMA–PTHF–PST linear and star block copolymers. J Appl Polym Sci 93:219–226CrossRef

37.

Hazer B (1991) Synthesis of styrene-tetrahydrofuran branched block copolymers. Eur Polym J 27:975–978CrossRef

38.

Hirao A, Kawano H, Ryu SW (2002) Synthesis of branched polymers by means of living anionic polymerization - Part 6. Synthesis of well-defined comb-like branched polystyrenes and graft copolymers with highly branched architecture. Polym Adv Technol 13:275–284CrossRef

39.

Hawker CJ, Frechet JMJ (1990) A new convergent approach to monodisperse dendritic macromolecules. J Chem Soc Chem Commun 15:1010–1013CrossRef

40.

Wooley KL, Hawker CJ, Frechet JMJ (1991) Hyperbranched macromolecules via a novel double-stage convergent growth approach. J Am Chem Soc 113:4252–4261CrossRef

41.

Meyers SR, Juhn FS, Griset AP, Luman NR, Grinstaff MW (2008) Anionic amphiphilic dendrimers as antibacterial agents. J Am Chem Soc 130:14444–14445CrossRef

42.

Hiraoka S, Harano K, Shiro M, Shionoya M (2008) A self-assembled organic capsule formed from the union of six hexagram-shaped amphiphile molecules. J Am Chem Soc 130:14368–14369CrossRef

43.

Hadjichristidis N, Pitsikalis M, Pispas S, Iatrou H (2001) Polymers with complex architecture by living anionic polymerization. Chem Rev 101:3747–3792CrossRef

44.

Cheng G, Boeker A, Zhang M, Krausch G, Mueller AHE (2001) Amphiphilic cylindrical core−shell brushes via a “grafting from” process using ATRP. Macromolecules 34:6883–6888CrossRef

45.

Gao H, Matyjaszewski K (2007) Synthesis of molecular brushes by “grafting onto” method: combination of ATRP and click reactions. J Am Chem Soc 129:6633–6639CrossRef

46.

Macit H, Hazer B, Arslan H, Noda I (2009) The synthesis of PHA-g-(PTHF-b-PMMA) multiblock/graft copolymers by combination of cationic and radical polymerization. J Appl Polym Sci 111:2308–2317CrossRef

47.

Hadjichristidis N, Iatrou H, Pitsikalis M, Mays J (2006) Macromolecular architectures by living and controlled/living polymerizations. Prog Polym Sci 31:1068–1132CrossRef

48.

Wesslen B, Wesslen KB (1989) Preparation and properties of some water-soluble, comb-shaped, amphiphilic polymers. J Polym Sci A Polym Chem 27:3915–3926CrossRef

49.

Zhang M, Mueller AHE (2005) Cylindrical polymer brushes. J Polym Sci A Polym Chem 43:3461–3481CrossRef

50.

Pakula T, Zhang Y, Matyjaszewski K, Lee H-I, Boerner H, Qin S, Berry GC (2006) Molecular brushes as super-soft elastomers. Polymer 47:7198–7206CrossRef

51.

Katz JS, Doh J, Irvine DJ (2006) Composition-tunable properties of amphiphilic comb copolymers containing protected methacrylic acid groups for multicomponent protein patterning. Langmuir 22:353–359CrossRef

52.

Lessard B, Maric M (2008) Nitroxide-mediated synthesis of poly(poly(ethylene glycol) acrylate) (PPEGA) comb-like homopolymers and block copolymers. Macromolecules 41:7870–7880CrossRef

53.

Deffieux A, Schappacher M (1999) Synthesis and characterization of star and comb polystyrenes using isometric poly(chloroethyl vinyl ether) oligomers as reactive backbone. Macromolecules 32:1797–1802CrossRef

54.

Cao T, Yin W, Armstrong JL, Webber SE (1994) Adsorption of photoactive amphiphilic polymers onto hydrophobic polymer films: polystyrene-block-poly(2-vinylnaphthalene)-block-poly(methacrylic acid) adsorption of photoactive amphiphilic polymers onto hydrophobic polymer films: polystyrene-block-poly(2-vinylnaphthalene)-block-poly(methacrylic acid). Langmuir 10:1841–1847CrossRef

55.

Zhou G, Smid J (1993) Micellization of amphiphilic star polymers with poly(ethylene oxide) arms in aqueous solutions micellization of amphiphilic star polymers with poly(ethylene oxide) arms in aqueous solutions. Langmuir 9:2907–2913CrossRef

56.

Geetha B, Mandal AB, Ramasami T (1993) Synthesis, characterization, and micelle formation in an aqueous solution of methoxypolyethylene glycol macromonomer, homopolymer, and graft copolymer. Macromolecules 26:4083–4088CrossRef

57.

Riess G (2003) Micellization of block copolymers. Prog Polym Sci 28:1107–1170CrossRef

58.

Maltesh C, Xu Q, Somasundaran P, Benton WJ, Nguyen H (1992) Aggregation behavior of and surface tension reduction by comblike amphiphilic polymers aggregation behavior of and surface tension reduction by comblike amphiphilic polymers. Langmuir 8:1511–1513CrossRef

59.

Gacal B, Durmaz H, Tasdelen MA, Hizal G, Tunca U, Yagci Y, Demirel AL (2006) Anthracene−maleimide-based Diels−Alder “click chemistry” as a novel route to graft copolymers. Macromolecules 39:5330–5336CrossRef

60.

Pispas S, Hadjichristidis N (2003) Aggregation behavior of poly(butadiene-b-ethylene oxide) block copolymers in dilute aqueous solutions: effect of concentration temperature ionic strength and type of surfactant. Langmuir 19:48–54CrossRef

61.

Sundararaman A, Stephan T, Grubbs RB (2008) Reversible restructuring of aqueous block copolymer assemblies through stimulus-induced changes in amphiphilicity. J Am Chem Soc 130:12264–12265CrossRef

62.

Harris JM, Case MG (1983) Poly(ethylene glycol) ethers as recoverable phase-transfer agents in permanganate oxidations. J Org Chem 48:5390–5392CrossRef

63.

Harris JM (1985) Laboratory synthesis of polyethylene glycol derivatives. JMS-REV Macromol Chem Phys C25(3):325–373

64.

Koike Y, Cakmak M (2009) Atomic force microscopy observations on the structure development during uniaxial stretching of pp from partially molten state: effect of isotacticity. Macromolecules 37:2171–2181CrossRef

65.

Lee K-H, Ohsawa O, Watanabe K, Kim I-S, Givens SR, Chase B, Rabolt JF (2009) Electrospinning of syndiotactic polypropylene from a polymer solution at ambient temperatures. Macromolecules 42:5215–5218CrossRef

66.

Suale M, Navarre S, Babot O, Maslow W, Vertommen L, Maillard B (2003) Chemical modification of molten polypropylene by thermolysis of peroxidic compounds. Macromolecules 36:7469–7476CrossRef

67.

Wang ZM, Hong H, Chung TC (2005) Synthesis of maleic anhydride grafted polypropylene with high molecular weight using borane/O₂ radical initiator and commercial PP polymers. Macromolecules 38:8966–8970CrossRef

68.

Çetin S, Tinçer T (2008) Graft copolymerization of p-acryloyloxybenzoic acid and p-methacryloyloxybenzoic acid onto isotactic polypropylene and their thermal properties: part. J Appl Polym Sci 108:414–422CrossRef

69.

Bae C, Hartwig JF, Haris NKB, Long RO, Anderson KS, Hillmyer MA (2005) Catalytic hydroxylation of polypropylenes. J Am Chem Soc 127:767–776CrossRef

70.

Díaz-Requejo MM, Wehrmann P, Leatherman MD, Trofimenko S, Mecking S, Brookhart M, Pérez PJ (2005) Controlled copper-catalyzed functionalization of polyolefins. Macromolecules 38:4966–4969CrossRef

71.

Feng Y, Zhao J, Wang Q, Li M, Chen X (2000) Synthesis and characterization of comb-like polymer PVC-poly(ethylene oxide). J Appl Polym Sci 75:475–479CrossRef

72.

Kalaycı ÖA, Cömert FB, Hazer B, Atalay T, Cavicchi KA, Cakmak M (2009) Synthesis, characterization, and antibacterial activity of metal nanoparticles embedded into amphiphilic comb-type graft copolymers. Polym Bull. doi:10.1007/s00289-009-0196-y

73.

Gitsov I, Wooley KL, Frechet JMJ (1992) Novel polyether copolymers consisting of linear and dendritic blocks. Angew Chem Int Ed Engl 31:1200–1202CrossRef

74.

Yıldız B, Işık B, Kış M (2002) Synthesis and characterization of thermoresponsive isopropylacrylamide–acrylamide hydrogels. Eur Polym J 38(7):1343–1347CrossRef

75.

Grayson SM, Frechet JMJ (2001) Convergent dendrons and dendrimers: from synthesis to applications. Chem Rev 101:3819–3867CrossRef

76.

Hawker CJ, Frechet JMJ (1990) Preparation of polymers with controlled molecular architecture. A new convergent approach to dendritic macromolecules. J Am Chem Soc 112:7638–7647CrossRef

Titel: Synthesis and characterization of novel comb-type amphiphilic graft copolymers containing polypropylene and polyethylene glycol
verfasst von: Murat Balcı
Abdulkadir Allı
Baki Hazer
Olgun Güven
Kevin Cavicchi
Mukerrem Cakmak
Publikationsdatum: 01.04.2010
Verlag: Springer-Verlag
Erschienen in: Polymer Bulletin / Ausgabe 7/2010
Print ISSN: 0170-0839
Elektronische ISSN: 1436-2449
DOI: https://doi.org/10.1007/s00289-009-0211-3

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