Pyrrole-Containing ABA Triblock Brush Polymers as Dual Functional Molecules to Facilely Access Diverse Mesostructured Materials

Abstract: We report a new type of ABA-type brush-like triblock copolymer (PEGMA-b-PPHMA-b-PEGMA), which is characterized by two hydrophilic end segments (A) and a hydrophobic midblock (B) bearing polymerizable pyrrole moieties. This kind of symmetric triblock copolymers can not only serve as a structure-directing agent for the formation of mesoporous silicates but also function as a polymerizable monomer or carbon source for further chemical conversion to deliver mesostructured polymer or carbon materials within the pre… Show more

“…This kind of diblock copolymer is characterized by a hydrophilic segment (PEO) and a hydrophobic block bearing polymerizable pyrrole moieties (PPHMA). Compared to the previously reported amphiphilic block copolymers, the synthesized PEO- b -PPHMA copolymers can not only serve as structure-directing agents for the formation of mesostructured materials but also function as polymerizable monomers or carbon sources for further chemical conversion to deliver mesostructured polymers or carbon materials within the preformed mesoporous frameworks. , This unique structural feature enables facile access to diverse mesoporous heterostructures.…”

“…Compared to the previously reported amphiphilic block copolymers, the synthesized PEOb-PPHMA copolymers can not only serve as structuredirecting agents for the formation of mesostructured materials but also function as polymerizable monomers or carbon sources for further chemical conversion to deliver mesostructured polymers or carbon materials within the preformed mesoporous frameworks. 28,29 This unique structural feature enables facile access to diverse mesoporous heterostructures. Figure 1 illustrates the fabrication of well-defined mesoporous carbon-supported TiO 2 heterostructures with diverse mesostructures.…”

“…In recent years, we developed two new types of block copolymers PEO- b -PPHMA and PEGMA- b -PPHMA- b -PEGMA and systematically investigated their capability of creating ordered mesostructured materials. In this work, we found that the developed polymerizable copolymers PEO- b -PPHMA possess some unique features beneficial for creating well-defined mesoporous carbon/TiO 2 heterostructure systems with high tunability.…”

Rational Fabrication of Well-Defined Mesoporous Carbon-Supported TiO₂ Nanostructures for Anode Material of Lithium-Ion Batteries

“…This kind of diblock copolymer is characterized by a hydrophilic segment (PEO) and a hydrophobic block bearing polymerizable pyrrole moieties (PPHMA). Compared to the previously reported amphiphilic block copolymers, the synthesized PEO- b -PPHMA copolymers can not only serve as structure-directing agents for the formation of mesostructured materials but also function as polymerizable monomers or carbon sources for further chemical conversion to deliver mesostructured polymers or carbon materials within the preformed mesoporous frameworks. , This unique structural feature enables facile access to diverse mesoporous heterostructures.…”

“…Compared to the previously reported amphiphilic block copolymers, the synthesized PEOb-PPHMA copolymers can not only serve as structuredirecting agents for the formation of mesostructured materials but also function as polymerizable monomers or carbon sources for further chemical conversion to deliver mesostructured polymers or carbon materials within the preformed mesoporous frameworks. 28,29 This unique structural feature enables facile access to diverse mesoporous heterostructures. Figure 1 illustrates the fabrication of well-defined mesoporous carbon-supported TiO 2 heterostructures with diverse mesostructures.…”

“…In recent years, we developed two new types of block copolymers PEO- b -PPHMA and PEGMA- b -PPHMA- b -PEGMA and systematically investigated their capability of creating ordered mesostructured materials. In this work, we found that the developed polymerizable copolymers PEO- b -PPHMA possess some unique features beneficial for creating well-defined mesoporous carbon/TiO 2 heterostructure systems with high tunability.…”

Rational Fabrication of Well-Defined Mesoporous Carbon-Supported TiO₂ Nanostructures for Anode Material of Lithium-Ion Batteries

“…52 After the co-assembly of BCPs and precursors (EISA and EIAA) or the infiltration of precursors into self-assembled BCP templates, crosslinking of the precursors and subsequent removal of the polymer template by calcination or solvent washing yield various networks. These networks include silica, 27,28,54,55,[57][58][59][60][61][62][63][64][65][66][67][68][69][70][71][72][73][74][75] silica composites, [53][54][55]76 calcite, 77 carbon, 14,56,70,71,[78][79][80][81][82][83][84][85][86][87][88] ceramic, 89 metals, [90][91][92][93]…”

“…After the co‐assembly of BCPs and precursors (EISA and EIAA) or the infiltration of precursors into self‐assembled BCP templates, crosslinking of the precursors and subsequent removal of the polymer template by calcination or solvent washing yield various networks. These networks include silica, 27,28,54,55,57–75 silica composites, 53–55,76 calcite, 77 carbon, 14,56,70,71,78–88 ceramic, 89 metals, 90–99 metal composites, 100–105 metal oxides such as aluminum oxide, 22 titania, 27,87,106–110 nickel oxide, 111 niobia, 103,112 vanadium oxide 113,114 tantalum oxide 115 and zinc oxide, 116 and polymers including PEDOT, 117 polypyrrole, 13,71,117,118 polydopamine, 13 poly‐ m ‐phenylenediamine, 13 and phenolic and epoxy resins 119…”

Synthesis and applications of polymer cubosomes and hexosomes

Enhancing the bonding reliability of titanium alloy / CFRTP hybrid joint by directionally inducing high-density covalent bond and secondary interaction via functional diblock copolymer