A supramolecular strategy based on molecular dipole moments for high-quality covalent organic frameworks

A supramolecular strategy based on strong molecular dipole moments is presented to gain access to covalent organic framework structures with high crystallinity and porosity. Antiparallel alignment of the molecules within the pore walls is proposed to lead to reinforced columnar stacking, thus afford...

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Published in	Chemical communications (Cambridge, England) Vol. 52; no. 51; pp. 7986 - 7989
Main Authors	Salonen, Laura M, Medina, Dana D, Carbó-Argibay, Enrique, Goesten, Maarten G, Mafra, Luís, Guldris, Noelia, Rotter, Julian M, Stroppa, Daniel G, Rodríguez-Abreu, Carlos
Format	Journal Article
Language	English
Published	CAMBRIDGE Royal Soc Chemistry 01.01.2016
Subjects	chemical compounds chemical reactions Chemistry Chemistry, Multidisciplinary Covalence crystal structure Crystallinity Dipole moment Gain Physical Sciences Porosity Science & Technology Stacking Strategy Walls STORAGE HYDROGEN STACKING PYRENE STABILITY CONSTRUCTION AROMATIC RINGS CRYSTALLINE
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Abstract	A supramolecular strategy based on strong molecular dipole moments is presented to gain access to covalent organic framework structures with high crystallinity and porosity. Antiparallel alignment of the molecules within the pore walls is proposed to lead to reinforced columnar stacking, thus affording a high-quality material. As a proof of principle, a novel pyrene dione building block was prepared and reacted with hexahydroxytriphenylene to form a boronic ester-linked covalent organic framework. We anticipate the strategy presented herein to be valuable for producing highly defined COF structures. Attractive intermolecular interactions of building blocks with strong dipole moments result in a COF with high crystallinity and large surface area.
AbstractList	A supramolecular strategy based on strongmolecular dipole moments is presented to gain access to covalent organic framework structures with high crystallinity and porosity. Antiparallel alignment of the molecules within the pore walls is proposed to lead to reinforced columnar stacking, thus affording a high-quality material. As a proof of principle, a novel pyrene dione building block was prepared and reacted with hexahydroxytriphenylene to form a boronic ester-linked covalent organic framework. We anticipate the strategy presented herein to be valuable for producing highly defined COF structures. A supramolecular strategy based on strong molecular dipole moments is presented to gain access to covalent organic framework structures with high crystallinity and porosity. Antiparallel alignment of the molecules within the pore walls is proposed to lead to reinforced columnar stacking, thus affording a high-quality material. As a proof of principle, a novel pyrene dione building block was prepared and reacted with hexahydroxytriphenylene to form a boronic ester-linked covalent organic framework. We anticipate the strategy presented herein to be valuable for producing highly defined COF structures. A supramolecular strategy based on strong molecular dipole moments is presented to gain access to covalent organic framework structures with high crystallinity and porosity. Antiparallel alignment of the molecules within the pore walls is proposed to lead to reinforced columnar stacking, thus affording a high-quality material. As a proof of principle, a novel pyrene dione building block was prepared and reacted with hexahydroxytriphenylene to form a boronic ester-linked covalent organic framework. We anticipate the strategy presented herein to be valuable for producing highly defined COF structures. Attractive intermolecular interactions of building blocks with strong dipole moments result in a COF with high crystallinity and large surface area.
Author	Guldris, Noelia Mafra, Luís Rotter, Julian M Salonen, Laura M Stroppa, Daniel G Medina, Dana D Rodríguez-Abreu, Carlos Carbó-Argibay, Enrique Goesten, Maarten G
AuthorAffiliation	Department of Chemistry University of Aveiro International Iberian Nanotechnology Laboratory (INL) CICECO - Aveiro Institute of Materials Ludwig-Maximilians-University Munich (LMU) Department of Chemistry and Center for NanoScience (CeNS) Inorganic Materials Chemistry Eindhoven University of Technology
AuthorAffiliation_xml	– sequence: 0 name: Department of Chemistry – sequence: 0 name: University of Aveiro – sequence: 0 name: International Iberian Nanotechnology Laboratory (INL) – sequence: 0 name: Ludwig-Maximilians-University Munich (LMU) – sequence: 0 name: Inorganic Materials Chemistry – sequence: 0 name: Department of Chemistry and Center for NanoScience (CeNS) – sequence: 0 name: CICECO - Aveiro Institute of Materials – sequence: 0 name: Eindhoven University of Technology
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/27257634$$D View this record in MEDLINE/PubMed
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Snippet	A supramolecular strategy based on strong molecular dipole moments is presented to gain access to covalent organic framework structures with high crystallinity... A supramolecular strategy based on strongmolecular dipole moments is presented to gain access to covalent organic framework structures with high crystallinity...
Source	Web of Science
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SourceType	Aggregation Database Index Database Enrichment Source Publisher
StartPage	7986
SubjectTerms	chemical compounds chemical reactions Chemistry Chemistry, Multidisciplinary Covalence crystal structure Crystallinity Dipole moment Gain Physical Sciences Porosity Science & Technology Stacking Strategy Walls
Title	A supramolecular strategy based on molecular dipole moments for high-quality covalent organic frameworks
URI	http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=Summon&SrcAuth=ProQuest&DestApp=WOS&DestLinkType=FullRecord&UT=000378234500017 https://www.ncbi.nlm.nih.gov/pubmed/27257634 https://www.proquest.com/docview/1797876034 https://www.proquest.com/docview/1825511286 https://www.proquest.com/docview/2237544926
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