• 专利标题:   Semicrystalline polymer/graphene oxide composite film used in flexible displays, comprises first semicrystalline-typed polymer distributed in structural space of film and having porous structure and graphene oxide having layered structure.
  • 专利号:   US2015118468-A1, TW201517127-A, US9458344-B2, TW557774-B1
  • 发明人:   CHEN J, HU C, LEE K, LAI J, CHEN J T, HU C C, LEE K R, LAI J Y
  • 专利权人:   UNIV CHUNG YUAN CHRISTIAN
  • 国际专利分类:   B05D001/28, B05D003/02, C08L029/04, H01L021/205, H01L029/78, C08J007/04, C08K005/1515, C09D129/04
  • 专利详细信息:   US2015118468-A1 30 Apr 2015 C08L-029/04 201532 Pages: 15 English
  • 申请详细信息:   US2015118468-A1 US077525 12 Nov 2013
  • 优先权号:   TW138772

▎ 摘  要

NOVELTY - Semicrystalline polymer/graphene oxide composite film, comprises: first semicrystalline-typed polymer, distributed in structural space of composite film and having porous structure; and graphene oxide, having layered structure and distributed in film where gas passage exist between adjacent layered structures, first semicrystalline-typed polymer existing between part of adjacent layered structures forms into second semicrystalline-typed polymer by further heat treatment after first semicrystalline-typed polymer and graphene oxide are blended uniformly to be distributed in composite film. USE - The semicrystalline polymer/graphene oxide composite film is useful in flexible displays. ADVANTAGE - The composite film exhibits high transparency and has good gas barrier performance. DETAILED DESCRIPTION - Semicrystalline polymer/graphene oxide composite film, comprises: first semicrystalline-typed polymer, distributed in structural space of the composite film and having a porous structure; and graphene oxide, having a layered structure and distributed in the composite film where gas passage exist between adjacent layered structures, the first semicrystalline-typed polymer existing between part of adjacent layered structures forms into a second semicrystalline-typed polymer by further heat treatment after the first semicrystalline-typed polymer and graphene oxide are blended uniformly to be distributed in the composite film to fill and seal a portion of the porous structure to block gas from flowing to extend path length(s) of gas passage, where graphene oxide existing between the first semicrystalline-typed polymers induces formation of the second semicrystalline-typed polymer. An INDEPENDENT CLAIM is also included for fabricating a semicrystalline polymer/graphene oxide composite film, comprising: providing polymer/graphene oxide casting solution by dissolving a polymer in a first solvent to obtain a mixture solution, adding graphene oxide solution into the mixture solution, and stirring until uniform where the graphene oxide solution comprises second solvent and graphene oxide dispersed in the second solvent; performing a film forming procedure by coating the polymer/graphene oxide casting solution on a substrate to form a first film on the substrate where the graphene oxide in the first film has a layered structure and distributed in the polymer; performing crystallization procedure by drying the first film with heat to form the first film having a first semi-crystalline-typed polymer where the first semicrystalline-typed polymer has a porous structure and the first semicrystalline-typed polymer and graphene oxide are distributed uniformly in the first film with respect to each other to have the first semicrystalline-typed polymer exist between graphene oxide and graphene oxide also exist between the first semicrystalline-typed polymers; performing recrystallization procedure by having the composite film having the first semicrystalline-typed polymer undergo heat treatment to induce the first semi-crystalline-typed polymer polyvinyl alcohol between adjacent layers of graphene oxide to form a second semi-crystalline-typed polymer to obtain a composite film having the first semicrystalline-typed polymer and the second semicrystalline-typed polymer where the second semicrystalline-typed polymer fills and seals the porous structure of the first semicrystalline-typed polymer to block gas from flowing through and to increase a length that gas passes from one side of the composite film to the other side of the composite film.