Facile Synthesis of Rod–Coil Block Copolymers with Chiral, Helical Polycarbodiimide Segments via Postpolymerization CuAAC “Click” Coupling of Functional End Groups

Using the living nickel­(II)-mediated polymerization of carbodiimides, the chiral (R)- or (S)-N-1-phenethyl-N′-methylcarbodiimide (PMC) monomers were polymerized with a new TIPS protected alkyne functional nickel initiator forming PPMC with an excess single-handed screw sense and the alkyne moiety c...

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Published inMacromolecules Vol. 48; no. 10; pp. 3207 - 3216
Main Authors Reuther, James F, Siriwardane, Dumindika A, Kulikov, Oleg V, Batchelor, Benjamin L, Campos, Raymond, Novak, Bruce M
Format Journal Article
LanguageEnglish
Published American Chemical Society 26.05.2015
Subjects
alkynes
atomic force microscopy
chemical bonding
composite polymers
evaporation
matrix-assisted laser desorption-ionization mass spectrometry
melting
moieties
nickel
nuclear magnetic resonance spectroscopy
polymerization
porous media
scanning electron microscopy
solvents
toluene
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Abstract Using the living nickel­(II)-mediated polymerization of carbodiimides, the chiral (R)- or (S)-N-1-phenethyl-N′-methylcarbodiimide (PMC) monomers were polymerized with a new TIPS protected alkyne functional nickel initiator forming PPMC with an excess single-handed screw sense and the alkyne moiety covalently attached to the terminus of the polymer, as confirmed by 1H NMR and MALDI-TOF MS. After deprotection, the alkyne end groups of rigid-rod PPMC-2 were coupled with azide-terminated, random-coil PS and PEG homopolymers forming a novel class of helical-b-coil block copolymers. In the thin-film, all synthesized diblock copolymers formed interesting nanofibular morphologies when subject to specific conditions. The triblock RCP-4, however, adopted unique macroporous morphology as identified by AFM and SEM with average pore diameters of ca. 832 ± 194 nm. The origin of this was found to be associated with the ordering of large, hollow vesicle aggregates upon solvent evaporation followed by the melting of these aggregates filling in the hollow interior forming the submicron pores observed. Furthermore, the size of these aggregates can be easily modulated in a linear fashion from 272 to 1648 nm simply by increasing the concentration of RCP-4 in THF. Finally, the three PPMC–PEG copolymers synthesized were found to adopt lyotropic cholesteric mesophases in concentrated toluene solutions (ca. 30 wt %).
AbstractList Using the living nickel(II)-mediated polymerization of carbodiimides, the chiral (R)- or (S)-N-1-phenethyl-N′-methylcarbodiimide (PMC) monomers were polymerized with a new TIPS protected alkyne functional nickel initiator forming PPMC with an excess single-handed screw sense and the alkyne moiety covalently attached to the terminus of the polymer, as confirmed by ¹H NMR and MALDI-TOF MS. After deprotection, the alkyne end groups of rigid-rod PPMC-2 were coupled with azide-terminated, random-coil PS and PEG homopolymers forming a novel class of helical-b-coil block copolymers. In the thin-film, all synthesized diblock copolymers formed interesting nanofibular morphologies when subject to specific conditions. The triblock RCP-4, however, adopted unique macroporous morphology as identified by AFM and SEM with average pore diameters of ca. 832 ± 194 nm. The origin of this was found to be associated with the ordering of large, hollow vesicle aggregates upon solvent evaporation followed by the melting of these aggregates filling in the hollow interior forming the submicron pores observed. Furthermore, the size of these aggregates can be easily modulated in a linear fashion from 272 to 1648 nm simply by increasing the concentration of RCP-4 in THF. Finally, the three PPMC–PEG copolymers synthesized were found to adopt lyotropic cholesteric mesophases in concentrated toluene solutions (ca. 30 wt %).
Using the living nickel­(II)-mediated polymerization of carbodiimides, the chiral (R)- or (S)-N-1-phenethyl-N′-methylcarbodiimide (PMC) monomers were polymerized with a new TIPS protected alkyne functional nickel initiator forming PPMC with an excess single-handed screw sense and the alkyne moiety covalently attached to the terminus of the polymer, as confirmed by 1H NMR and MALDI-TOF MS. After deprotection, the alkyne end groups of rigid-rod PPMC-2 were coupled with azide-terminated, random-coil PS and PEG homopolymers forming a novel class of helical-b-coil block copolymers. In the thin-film, all synthesized diblock copolymers formed interesting nanofibular morphologies when subject to specific conditions. The triblock RCP-4, however, adopted unique macroporous morphology as identified by AFM and SEM with average pore diameters of ca. 832 ± 194 nm. The origin of this was found to be associated with the ordering of large, hollow vesicle aggregates upon solvent evaporation followed by the melting of these aggregates filling in the hollow interior forming the submicron pores observed. Furthermore, the size of these aggregates can be easily modulated in a linear fashion from 272 to 1648 nm simply by increasing the concentration of RCP-4 in THF. Finally, the three PPMC–PEG copolymers synthesized were found to adopt lyotropic cholesteric mesophases in concentrated toluene solutions (ca. 30 wt %).
Author Campos, Raymond
Reuther, James F
Kulikov, Oleg V
Batchelor, Benjamin L
Novak, Bruce M
Siriwardane, Dumindika A
AuthorAffiliation Department of Chemistry
Department of Chemistry and Alan G. MacDiarmid NanoTech Institute
University of Texas at Dallas
University of Texas at Austin
AuthorAffiliation_xml – name: Department of Chemistry
– name: Department of Chemistry and Alan G. MacDiarmid NanoTech Institute
– name: University of Texas at Dallas
– name: University of Texas at Austin
Author_xml – sequence: 1
  givenname: James F
  surname: Reuther
  fullname: Reuther, James F
– sequence: 2
  givenname: Dumindika A
  surname: Siriwardane
  fullname: Siriwardane, Dumindika A
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  givenname: Oleg V
  surname: Kulikov
  fullname: Kulikov, Oleg V
– sequence: 4
  givenname: Benjamin L
  surname: Batchelor
  fullname: Batchelor, Benjamin L
– sequence: 5
  givenname: Raymond
  surname: Campos
  fullname: Campos, Raymond
– sequence: 6
  givenname: Bruce M
  surname: Novak
  fullname: Novak, Bruce M
  email: bxn111230@utdallas.edu
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Snippet Using the living nickel­(II)-mediated polymerization of carbodiimides, the chiral (R)- or (S)-N-1-phenethyl-N′-methylcarbodiimide (PMC) monomers were...
Using the living nickel(II)-mediated polymerization of carbodiimides, the chiral (R)- or (S)-N-1-phenethyl-N′-methylcarbodiimide (PMC) monomers were...
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SubjectTerms alkynes
atomic force microscopy
chemical bonding
composite polymers
evaporation
matrix-assisted laser desorption-ionization mass spectrometry
melting
moieties
nickel
nuclear magnetic resonance spectroscopy
polymerization
porous media
scanning electron microscopy
solvents
toluene
Title Facile Synthesis of Rod–Coil Block Copolymers with Chiral, Helical Polycarbodiimide Segments via Postpolymerization CuAAC “Click” Coupling of Functional End Groups
URI http://dx.doi.org/10.1021/acs.macromol.5b00453
https://www.proquest.com/docview/2084092419
Volume 48
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