Multidimensional network of polypyrrole nanotubes loaded with ZIF-67 to construct multiple proton transport channels in composite proton exchange membranes for fuel cells

[1]  Abdulkader S. Hanbazazah,et al.  Current status and future perspectives of proton exchange membranes for hydrogen fuel cells. , 2022, Chemosphere.

[2]  Yan Guo,et al.  Hybrid proton exchange membrane used in fuel cell with amino-functionalized metal–organic framework in sulfonated polyimide to construct efficient ion transport channel , 2022, Advanced Composites and Hybrid Materials.

[3]  Haifeng Shi,et al.  Ultrahigh proton conductive nanofibrous composite membrane with an interpenetrating framework and enhanced acid-base interfacial layers for vanadium redox flow battery , 2022, Journal of Membrane Science.

[4]  Y. Lv,et al.  Bifunctional Acid Proton Conductor Doping to Improve the Comprehensive Properties of a Cross-Linked Polybenzimidazole High-Temperature Proton Exchange Membrane , 2022, ACS Applied Energy Materials.

[5]  Haolin Tang,et al.  Self-Assembly-Cooperating in Situ Construction of MXene–CeO2 as Hybrid Membrane Coating for Durable and High-Performance Proton Exchange Membrane Fuel Cell , 2022, ACS Sustainable Chemistry & Engineering.

[6]  M. Vinothkannan,et al.  Simultaneous improvement of power density and durability of sulfonated poly(ether ether ketone) membrane by embedding CeO2‐ATiO2: A comprehensive study in low humidity proton exchange membrane fuel cells , 2022, International Journal of Energy Research.

[7]  P. Saejueng,et al.  Imidazole-doped proton conducting composite membranes fabricated from double-crosslinked poly(vinyl alcohol) and zeolitic imidazolate framework , 2022, Polymer.

[8]  Salma Kouser,et al.  A review on zeolite imidazole frameworks: synthesis, properties, and applications , 2022, Journal of Porous Materials.

[9]  Z. Kolská,et al.  Adsorption of organic dyes on macroporous melamine sponge incorporating conducting polypyrrole nanotubes , 2022, Journal of Applied Polymer Science.

[10]  A. Surendhar,et al.  Enhanced performance of novel carbon nanotubes - sulfonated poly ether ether ketone (speek) composite proton exchange membrane in mfc application. , 2022, Chemosphere.

[11]  S. Woo,et al.  Sulfonated poly(phenylene-co-arylene ether sulfone) multiblock membranes for application in high-performance fuel cells , 2021, Journal of Membrane Science.

[12]  M. Vinothkannan,et al.  Enhanced performance and durability of composite membranes containing anatase titanium oxide for fuel cells operating under low relative humidity , 2021, International Journal of Energy Research.

[13]  Xiaoyan Yin,et al.  Stable branched polybenzimidazole high temperature proton exchange membrane: Crosslinking and pentaphosphonic-acid doping lower fuel permeability and enhanced proton transport , 2021, Journal of Membrane Science.

[14]  Lei Wang,et al.  Constructing High-Performance Proton Transport Channels in High-Temperature Proton Exchange Membranes by Introducing Triazole Groups , 2021, ACS Applied Energy Materials.

[15]  E. Giménez,et al.  Novel SPEEK-ZIF-67 Proton Exchange Nanocomposite Membrane for PEMFC Application at Intermediate Temperatures , 2021, Industrial & Engineering Chemistry Research.

[16]  Haifeng Shi,et al.  Hybrid proton exchange membrane of sulfonated poly(ether ether ketone) containing polydopamine-coated carbon nanotubes loaded phosphotungstic acid for vanadium redox flow battery , 2021 .

[17]  Donghai Mei,et al.  Polymer-supported ultra-thin ZIF-67 membrane through in situ interface self-repair , 2021 .

[18]  Gao Liu,et al.  Sulfonated aromatic polymer as a future proton exchange membrane: A review of sulfonation and crosslinking methods , 2020 .

[19]  Donghui Wang,et al.  Metal Organic Frameworks Modified Proton Exchange Membranes for Fuel Cells , 2020, Frontiers in Chemistry.

[20]  Shuang Wang,et al.  Adjust the arrangement of imidazole on the metal-organic framework to obtain hybrid proton exchange membrane with long-term stable high proton conductivity , 2020 .

[21]  Yanqing Tian,et al.  Highly dispersed polypyrrole nanotubes for improving the conductivity of electrically conductive adhesives , 2020, Journal of Materials Science: Materials in Electronics.

[22]  Hee‐Tak Kim,et al.  Magnetic Field-Induced Through-Plane Alignment of the Proton Highway in a Proton Exchange Membrane , 2020 .

[23]  B. Cheng,et al.  Zeolitic imidazolate framework decorated on 3D nanofiber network towards superior proton conduction for proton exchange membrane , 2020 .

[24]  Ying Yan,et al.  High efficiency of toluene adsorption over a novel ZIF-67 membrane coating on paper-like stainless steel fibers , 2019, Journal of Solid State Chemistry.

[25]  B. Cheng,et al.  Constructing Amino-Functionalized Flower-Like MOFs Nanofibers in Sulfonated Poly(ether sulfone) Proton Exchange Membrane for Simultaneously Enhancing Interface Compatibility and Proton Conduction. , 2019, ACS applied materials & interfaces.

[26]  E. Longo,et al.  SPEEK-based proton exchange membranes modified with MOF-encapsulated ionic liquid , 2019, Materials Chemistry and Physics.

[27]  Dukjoon Kim,et al.  Pendant dual-sulfonated poly(arylene ether ketone) multi-block copolymer membranes for enhanced proton conductivity at reduced water swelling , 2019, Journal of Membrane Science.

[28]  Sang‐Woo Kim,et al.  Sulfonated poly(etheretherketone) based nanocomposite membranes containing POSS-SA for polymer electrolyte membrane fuel cells (PEMFC) , 2018, Journal of Membrane Science.

[29]  R. C. Bindal,et al.  Cross-linked sulfonated poly(ether ether ketone)-poly ethylene glycol/silica organic–inorganic nanocomposite membrane for fuel cell application , 2018, Journal of Power Sources.

[30]  Wei Liu,et al.  Nanoporous ZIF-67 embedded polymers of intrinsic microporosity membranes with enhanced gas separation performance , 2018 .

[31]  H. Na,et al.  Enhanced Proton Conductivity of Sulfonated Hybrid Poly(arylene ether ketone) Membranes by Incorporating an Amino-Sulfo Bifunctionalized Metal-Organic Framework for Direct Methanol Fuel Cells. , 2018, ACS applied materials & interfaces.

[32]  B. Cheng,et al.  Solution blown biofunctionalized poly(vinylidene fluoride) nanofibers for application in proton exchange membrane fuel cells , 2017 .

[33]  M. Trchová,et al.  The ageing of polypyrrole nanotubes synthesized with methyl orange , 2017 .

[34]  Peiyi Wu,et al.  Two-Dimensional Zeolitic Imidazolate Framework/Carbon Nanotube Hybrid Networks Modified Proton Exchange Membranes for Improving Transport Properties. , 2017, ACS applied materials & interfaces.

[35]  Peiyi Wu,et al.  Rational Design of S-UiO-66@GO Hybrid Nanosheets for Proton Exchange Membranes with Significantly Enhanced Transport Performance. , 2017, ACS applied materials & interfaces.

[36]  K. Feng,et al.  Construction of well interconnected metal-organic framework structure for effectively promoting proton conductivity of proton exchange membrane , 2017 .

[37]  Peiyi Wu,et al.  Proton Conductivity of Proton Exchange Membrane Synergistically Promoted by Different Functionalized Metal-Organic Frameworks. , 2017, ACS applied materials & interfaces.

[38]  V. Pillai,et al.  Simultaneous unzipping and sulfonation of multi-walled carbon nanotubes to sulfonated graphene nanoribbons for nanocomposite membranes in polymer electrolyte fuel cells , 2016 .

[39]  Deborah J. Jones,et al.  Electrospun nanofibre composite polymer electrolyte fuel cell and electrolysis membranes , 2016 .

[40]  I. Eroglu,et al.  Polybenzimidazole/SiO2 hybrid membranes for high temperature proton exchange membrane fuel cells , 2016 .

[41]  Li Cao,et al.  Sulfonated poly(ether ether ketone)-based hybrid membranes containing graphene oxide with acid-base pairs for direct methanol fuel cells , 2016 .

[42]  Min Zhu,et al.  Sandwich-like SnS/Polypyrrole Ultrathin Nanosheets as High-Performance Anode Materials for Li-Ion Batteries. , 2016, ACS applied materials & interfaces.

[43]  Y. Lou,et al.  Controlling ZIF-67 crystals formation through various cobalt sources in aqueous solution , 2016 .

[44]  G. He,et al.  Electrospun nanofiber enhanced sulfonated poly (phthalazinone ether sulfone ketone) composite proton exchange membranes , 2015 .

[45]  Liping Zhao,et al.  Constructing proton-conductive highways within an ionomer membrane by embedding sulfonated polymer brush modified graphene oxide , 2015 .

[46]  Liping Zhao,et al.  Enhanced proton conductivities of nanofibrous composite membranes enabled by acid–base pairs under hydrated and anhydrous conditions , 2015 .

[47]  H. Pu,et al.  Organic–inorganic hybrid proton exchange membrane based on polyhedral oligomeric silsesquioxanes and sulfonated polyimides containing benzimidazole , 2014 .

[48]  K. Jacob,et al.  Cellulose nanowhiskers to regulate the microstructure of perfluorosulfonate ionomers for high-performance fuel cells , 2014 .

[49]  S. Cao,et al.  Polydopamine-modified graphene oxide nanocomposite membrane for proton exchange membrane fuel cell under anhydrous conditions , 2014 .

[50]  Lei Geng,et al.  Enhanced performance of the sulfonated polyimide proton exchange membranes by graphene oxide: Size effect of graphene oxide , 2014 .

[51]  Liang Wu,et al.  Immobilization of N-(3-aminopropyl)-imidazole through MOFs in proton conductive membrane for elevated temperature anhydrous applications , 2014 .

[52]  Jung-Ki Park,et al.  Enhanced durability of polymer electrolyte membrane fuel cells by functionalized 2D boron nitride nanoflakes. , 2014, ACS applied materials & interfaces.

[53]  Yuxiang Bu,et al.  Water promoting electron hole transport between tyrosine and cysteine in proteins via a special mechanism: double proton coupled electron transfer. , 2014, Journal of the American Chemical Society.

[54]  Nanwen Li,et al.  Ion Transport by Nanochannels in Ion-Containing Aromatic Copolymers , 2014 .

[55]  X. Chen,et al.  Nitrogen-doped porous carbons by conversion of azo dyes especially in the case of tartrazine , 2013 .

[56]  Ce Wang,et al.  One‐Dimensional Polyelectrolyte/Polymeric Semiconductor Core/Shell Structure: Sulfonated Poly(arylene ether ketone)/Polyaniline Nanofibers for Organic Field‐Effect Transistors , 2011, Advanced materials.

[57]  Nanwen Li,et al.  Enhancement of proton transport by nanochannels in comb-shaped copoly(arylene ether sulfone)s. , 2011, Angewandte Chemie.

[58]  A. Manthiram,et al.  Poly(arylene ether sulfone)s containing pendant sulfonic acid groups as membrane materials for direct methanol fuel cells , 2009 .

[59]  Michael O’Keeffe,et al.  Exceptional chemical and thermal stability of zeolitic imidazolate frameworks , 2006, Proceedings of the National Academy of Sciences.

[60]  Ronghuan He,et al.  Physicochemical properties of phosphoric acid doped polybenzimidazole membranes for fuel cells , 2006 .

[61]  C. Malitesta,et al.  New findings on polypyrrole chemical structure by XPS coupled to chemical derivatization labelling , 1995 .