SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2339732521> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2339732521 endingPage "7609" @default.
W2339732521 startingPage "7601" @default.
W2339732521 abstract "The sorption properties and structural versatility of metal–organic frameworks (MOFs) make them superior chemical sensing materials with both high sensitivity and selectivity, but the fabrication of MOF sensors with optimized performances still remains a major challenge. Herein, we propose a simple yet powerful optical sensing motif based on ultrathin MOF-coated monolayer colloidal crystals (MCCs), which allows for high efficiency in vapor sensing through changes in their effective refractive index (RI). Two optical modes exist in this sensor, namely, photonic eigenmodes and Fabry–Pérot oscillations, both of which can be used as the signal transducer. Selective response to a series of alcohols, water, and acetonitrile was exhibited, reflecting well the characteristic sorption properties of the integrated MOF, with which colorimetric reporting was readily achieved. Linear response to a broad dynamic range of vapor concentration was realized. The sensitivity was found to depend closely on the thickness of the MOF coating and can be further enhanced accordingly. Ultrafast response time (<5 s) and excellent recyclability were also demonstrated. These substantial improvements in performance are attributed to the efficacy of signal transduction and the enhanced pore accessibility and diffusion efficiency, which are intrinsically endowed by the optical motif design. Our findings should provide new insights into the design and fabrication of MOF sensors toward real-world applications." @default.
W2339732521 created "2016-06-24" @default.
W2339732521 creator A5044776527 @default.
W2339732521 creator A5046180571 @default.
W2339732521 creator A5047695454 @default.
W2339732521 creator A5072207899 @default.
W2339732521 creator A5080138500 @default.
W2339732521 date "2015-11-09" @default.
W2339732521 modified "2023-10-03" @default.
W2339732521 title "Facile Fabrication of Ultrathin Metal–Organic Framework-Coated Monolayer Colloidal Crystals for Highly Efficient Vapor Sensing" @default.
W2339732521 cites W1971051757 @default.
W2339732521 cites W1975936117 @default.
W2339732521 cites W1977952172 @default.
W2339732521 cites W1985558127 @default.
W2339732521 cites W1985653231 @default.
W2339732521 cites W1990737670 @default.
W2339732521 cites W1993821059 @default.
W2339732521 cites W1998151715 @default.
W2339732521 cites W1999937609 @default.
W2339732521 cites W2002799357 @default.
W2339732521 cites W2004550299 @default.
W2339732521 cites W2005366150 @default.
W2339732521 cites W2007082361 @default.
W2339732521 cites W2007188049 @default.
W2339732521 cites W2009806571 @default.
W2339732521 cites W2011852015 @default.
W2339732521 cites W2022167379 @default.
W2339732521 cites W2027184533 @default.
W2339732521 cites W2037683399 @default.
W2339732521 cites W2038321666 @default.
W2339732521 cites W2042397184 @default.
W2339732521 cites W2042495906 @default.
W2339732521 cites W2043206028 @default.
W2339732521 cites W2043582554 @default.
W2339732521 cites W2048015557 @default.
W2339732521 cites W2058504922 @default.
W2339732521 cites W2062269633 @default.
W2339732521 cites W2067266041 @default.
W2339732521 cites W2068895137 @default.
W2339732521 cites W2072755723 @default.
W2339732521 cites W2076775849 @default.
W2339732521 cites W2077449497 @default.
W2339732521 cites W2081325459 @default.
W2339732521 cites W2081350764 @default.
W2339732521 cites W2085680447 @default.
W2339732521 cites W2086782801 @default.
W2339732521 cites W2091161882 @default.
W2339732521 cites W2094511936 @default.
W2339732521 cites W2097807135 @default.
W2339732521 cites W2098292174 @default.
W2339732521 cites W2103810619 @default.
W2339732521 cites W2107125662 @default.
W2339732521 cites W2115764422 @default.
W2339732521 cites W2127728400 @default.
W2339732521 cites W2127870378 @default.
W2339732521 cites W2128154111 @default.
W2339732521 cites W2131824758 @default.
W2339732521 cites W2131988676 @default.
W2339732521 cites W2133413783 @default.
W2339732521 cites W2138511470 @default.
W2339732521 cites W2139673424 @default.
W2339732521 cites W2141939342 @default.
W2339732521 cites W2144928839 @default.
W2339732521 cites W2157011457 @default.
W2339732521 cites W2157170866 @default.
W2339732521 cites W2162465056 @default.
W2339732521 cites W2163535530 @default.
W2339732521 cites W2312866138 @default.
W2339732521 cites W2316124489 @default.
W2339732521 cites W2320079030 @default.
W2339732521 cites W2323506142 @default.
W2339732521 cites W2324776233 @default.
W2339732521 cites W2332397302 @default.
W2339732521 cites W2333504892 @default.
W2339732521 cites W2339614250 @default.
W2339732521 cites W3143879557 @default.
W2339732521 doi "https://doi.org/10.1021/acs.chemmater.5b02476" @default.
W2339732521 hasPublicationYear "2015" @default.
W2339732521 type Work @default.
W2339732521 sameAs 2339732521 @default.
W2339732521 citedByCount "64" @default.
W2339732521 countsByYear W23397325212016 @default.
W2339732521 countsByYear W23397325212017 @default.
W2339732521 countsByYear W23397325212018 @default.
W2339732521 countsByYear W23397325212019 @default.
W2339732521 countsByYear W23397325212020 @default.
W2339732521 countsByYear W23397325212021 @default.
W2339732521 countsByYear W23397325212022 @default.
W2339732521 countsByYear W23397325212023 @default.
W2339732521 crossrefType "journal-article" @default.
W2339732521 hasAuthorship W2339732521A5044776527 @default.
W2339732521 hasAuthorship W2339732521A5046180571 @default.
W2339732521 hasAuthorship W2339732521A5047695454 @default.
W2339732521 hasAuthorship W2339732521A5072207899 @default.
W2339732521 hasAuthorship W2339732521A5080138500 @default.
W2339732521 hasConcept C118792377 @default.
W2339732521 hasConcept C136525101 @default.
W2339732521 hasConcept C142724271 @default.