Chemiresistive Sensor Arrays from Conductive 2D Metal–Organic Frameworks

Applications of porous metal–organic frameworks (MOFs) in electronic devices are rare, owing in large part to a lack of MOFs that display electrical conductivity. Here, we describe the use of conductive two-dimensional (2D) MOFs as a new class of materials for chemiresistive sensing of volatile org...

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Published in	Journal of the American Chemical Society Vol. 137; no. 43; pp. 13780 - 13783
Main Authors	Campbell, Michael G, Liu, Sophie F, Swager, Timothy M, Dincă, Mircea
Format	Journal Article
Language	English
Published	United States American Chemical Society 04.11.2015 American Chemical Society (ACS)
Subjects	charge transport coordination polymers electrical conductivity electronic equipment INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY optics photosynthesis (natural and artificial) solar (photovoltaic) solid state lighting synthesis (novel materials) synthesis (scalable processing) synthesis (self-assembly) volatile organic compounds
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Abstract	Applications of porous metal–organic frameworks (MOFs) in electronic devices are rare, owing in large part to a lack of MOFs that display electrical conductivity. Here, we describe the use of conductive two-dimensional (2D) MOFs as a new class of materials for chemiresistive sensing of volatile organic compounds (VOCs). We demonstrate that a family of structurally analogous 2D MOFs can be used to construct a cross-reactive sensor array that allows for clear discrimination between different categories of VOCs. Experimental data show that multiple sensing mechanisms are operative with high degrees of orthogonality, establishing that the 2D MOFs used here are mechanistically unique and offer advantages relative to other known chemiresistor materials.
AbstractList	Applications of porous metal–organic frameworks (MOFs) in electronic devices are rare, owing in large part to a lack of MOFs that display electrical conductivity. Here, we describe the use of conductive two-dimensional (2D) MOFs as a new class of materials for chemiresistive sensing of volatile organic compounds (VOCs). We demonstrate that a family of structurally analogous 2D MOFs can be used to construct a cross-reactive sensor array that allows for clear discrimination between different categories of VOCs. Experimental data show that multiple sensing mechanisms are operative with high degrees of orthogonality, establishing that the 2D MOFs used here are mechanistically unique and offer advantages relative to other known chemiresistor materials. Applications of porous metal–organic frameworks (MOFs) in electronic devices are rare, owing in large part to a lack of MOFs that display electrical conductivity. Here, we describe the use of conductive two-dimensional (2D) MOFs as a new class of materials for chemiresistive sensing of volatile organic compounds (VOCs). We demonstrate that a family of structurally analogous 2D MOFs can be used to construct a cross-reactive sensor array that allows for clear discrimination between different categories of VOCs. Lastly, experimental data show that multiple sensing mechanisms are operative with high degrees of orthogonality, establishing that the 2D MOFs used here are mechanistically unique and offer advantages relative to other known chemiresistor materials. Applications of porous metal–organic frameworks (MOFs) in electronic devices are rare, owing in large part to a lack of MOFs that display electrical conductivity. Here, we describe the use of conductive two-dimensional (2D) MOFs as a new class of materials for chemiresistive sensing of volatile organic compounds (VOCs). We demonstrate that a family of structurally analogous 2D MOFs can be used to construct a cross-reactive sensor array that allows for clear discrimination between different categories of VOCs. Experimental data show that multiple sensing mechanisms are operative with high degrees of orthogonality, establishing that the 2D MOFs used here are mechanistically unique and offer advantages relative to other known chemiresistor materials.
Author	Campbell, Michael G Dincă, Mircea Liu, Sophie F Swager, Timothy M
AuthorAffiliation	Department of Chemistry Massachusetts Institute of Technology
AuthorAffiliation_xml	– name: Massachusetts Institute of Technology – name: Department of Chemistry
Author_xml	– sequence: 1 givenname: Michael G surname: Campbell fullname: Campbell, Michael G – sequence: 2 givenname: Sophie F surname: Liu fullname: Liu, Sophie F – sequence: 3 givenname: Timothy M surname: Swager fullname: Swager, Timothy M – sequence: 4 givenname: Mircea surname: Dincă fullname: Dincă, Mircea email: mdinca@mit.edu
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/26456526$$D View this record in MEDLINE/PubMed https://www.osti.gov/servlets/purl/1386738$$D View this record in Osti.gov
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Snippet	Applications of porous metal–organic frameworks (MOFs) in electronic devices are rare, owing in large part to a lack of MOFs that display electrical... Applications of porous metal-organic frameworks (MOFs) in electronic devices are rare, owing in large part to a lack of MOFs that display electrical...
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SubjectTerms	charge transport coordination polymers electrical conductivity electronic equipment INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY optics photosynthesis (natural and artificial) solar (photovoltaic) solid state lighting synthesis (novel materials) synthesis (scalable processing) synthesis (self-assembly) volatile organic compounds
Title	Chemiresistive Sensor Arrays from Conductive 2D Metal–Organic Frameworks
URI	http://dx.doi.org/10.1021/jacs.5b09600 https://www.ncbi.nlm.nih.gov/pubmed/26456526 https://www.proquest.com/docview/1730685397 https://www.proquest.com/docview/2000343279 https://www.osti.gov/servlets/purl/1386738
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