Room Temperature Synthesis of Covalent–Organic Framework Films through Vapor-Assisted Conversion

We describe the facile synthesis of several two-dimensional covalent–organic frameworks (2D COFs) as films by vapor-assisted conversion at room temperature. High-quality films of benzodithiophene-containing BDT-COF and COF-5 with tunable thickness were synthesized under different conditions on vario...

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Published in	Journal of the American Chemical Society Vol. 137; no. 3; pp. 1016 - 1019
Main Authors	Medina, Dana D, Rotter, Julian M, Hu, Yinghong, Dogru, Mirjam, Werner, Veronika, Auras, Florian, Markiewicz, John T, Knochel, Paul, Bein, Thomas
Format	Journal Article
Language	English
Published	United States American Chemical Society 28.01.2015
Subjects	ambient temperature Communication Conversion Covalence Micrometers Porosity Precursors Solvents Synthesis Two dimensional vapors
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Abstract	We describe the facile synthesis of several two-dimensional covalent–organic frameworks (2D COFs) as films by vapor-assisted conversion at room temperature. High-quality films of benzodithiophene-containing BDT-COF and COF-5 with tunable thickness were synthesized under different conditions on various substrates. BDT-COF films of several micrometer thickness exhibit mesoporosity as well as textural porosity, whereas thinner BDT-COF films materialize as a cohesive dense layer. In addition, we studied the formation of COF-5 films with different solvent mixture compositions serving as vapor source. Room temperature vapor-assisted conversion is an excellent method to form COF films of fragile precursors and on sensitive substrates.
AbstractList	We describe the facile synthesis of several two-dimensional covalent-organic frameworks (2D COFs) as films by vapor-assisted conversion at room temperature. High-quality films of benzodithiophene-containing BDT-COF and COF-5 with tunable thickness were synthesized under different conditions on various substrates. BDT-COF films of several micrometer thickness exhibit mesoporosity as well as textural porosity, whereas thinner BDT-COF films materialize as a cohesive dense layer. In addition, we studied the formation of COF-5 films with different solvent mixture compositions serving as vapor source. Room temperature vapor-assisted conversion is an excellent method to form COF films of fragile precursors and on sensitive substrates. We describe the facile synthesis of several two-dimensional covalent–organic frameworks (2D COFs) as films by vapor-assisted conversion at room temperature. High-quality films of benzodithiophene-containing BDT-COF and COF-5 with tunable thickness were synthesized under different conditions on various substrates. BDT-COF films of several micrometer thickness exhibit mesoporosity as well as textural porosity, whereas thinner BDT-COF films materialize as a cohesive dense layer. In addition, we studied the formation of COF-5 films with different solvent mixture compositions serving as vapor source. Room temperature vapor-assisted conversion is an excellent method to form COF films of fragile precursors and on sensitive substrates. We describe the facile synthesis of several two-dimensional covalent-organic frameworks (2D COFs) as films by vapor-assisted conversion at room temperature. High-quality films of benzodithiophene-containing BDT-COF and COF-5 with tunable thickness were synthesized under different conditions on various substrates. BDT-COF films of several micrometer thickness exhibit mesoporosity as well as textural porosity, whereas thinner BDT-COF films materialize as a cohesive dense layer. In addition, we studied the formation of COF-5 films with different solvent mixture compositions serving as vapor source. Room temperature vapor-assisted conversion is an excellent method to form COF films of fragile precursors and on sensitive substrates.We describe the facile synthesis of several two-dimensional covalent-organic frameworks (2D COFs) as films by vapor-assisted conversion at room temperature. High-quality films of benzodithiophene-containing BDT-COF and COF-5 with tunable thickness were synthesized under different conditions on various substrates. BDT-COF films of several micrometer thickness exhibit mesoporosity as well as textural porosity, whereas thinner BDT-COF films materialize as a cohesive dense layer. In addition, we studied the formation of COF-5 films with different solvent mixture compositions serving as vapor source. Room temperature vapor-assisted conversion is an excellent method to form COF films of fragile precursors and on sensitive substrates.
Author	Markiewicz, John T Dogru, Mirjam Auras, Florian Rotter, Julian M Werner, Veronika Hu, Yinghong Medina, Dana D Bein, Thomas Knochel, Paul
AuthorAffiliation	University of Munich (LMU) Department of Chemistry and Center for NanoScience (CeNS)
AuthorAffiliation_xml	– name: Department of Chemistry and Center for NanoScience (CeNS) – name: University of Munich (LMU)
Author_xml	– sequence: 1 givenname: Dana D surname: Medina fullname: Medina, Dana D – sequence: 2 givenname: Julian M surname: Rotter fullname: Rotter, Julian M – sequence: 3 givenname: Yinghong surname: Hu fullname: Hu, Yinghong – sequence: 4 givenname: Mirjam surname: Dogru fullname: Dogru, Mirjam – sequence: 5 givenname: Veronika surname: Werner fullname: Werner, Veronika – sequence: 6 givenname: Florian surname: Auras fullname: Auras, Florian – sequence: 7 givenname: John T surname: Markiewicz fullname: Markiewicz, John T – sequence: 8 givenname: Paul surname: Knochel fullname: Knochel, Paul email: paul.knochel@cup.uni-munchen.de – sequence: 9 givenname: Thomas surname: Bein fullname: Bein, Thomas email: bein@lmu.de
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/25539131$$D View this record in MEDLINE/PubMed
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Snippet	We describe the facile synthesis of several two-dimensional covalent–organic frameworks (2D COFs) as films by vapor-assisted conversion at room temperature.... We describe the facile synthesis of several two-dimensional covalent-organic frameworks (2D COFs) as films by vapor-assisted conversion at room temperature.... We describe the facile synthesis of several two-dimensional covalent–organic frameworks (2D COFs) as films by vapor-assisted conversion at room temperature....
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StartPage	1016
SubjectTerms	ambient temperature Communication Conversion Covalence Micrometers Porosity Precursors Solvents Synthesis Two dimensional vapors
Title	Room Temperature Synthesis of Covalent–Organic Framework Films through Vapor-Assisted Conversion
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