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W4224441450 abstract "Graphene-based sensors are exceptionally sensitive with high carrier mobility and low intrinsic noise, and have been intensively investigated in the past decade. The detection of individual gas molecules has been reported, albeit the underlying sensing mechanism is not yet well understood. We focus on the adsorption of ${mathrm{NO}}_{2}$, ${mathrm{H}}_{2}mathrm{O}$, and ${mathrm{NH}}_{3}$ on a molecular junction with a pyrene core, which can be considered as a minimal graphenelike unit. We systematically investigate the chemiresistive response within the framework of density functional theory and nonequilibrium Greens functions. We highlight the fundamental role of quantum interference (QI) in the sensing process, and we propose it as a paradigmatic mechanism for sensing. Owing to the open-shell character of ${mathrm{NO}}_{2}$, its interaction with pyrene gives rise to a Fano resonance thereby triggering the strongest chemiresistive response, while the weaker interactions with ${mathrm{H}}_{2}mathrm{O}$ and ${mathrm{NH}}_{3}$ result in lower sensitivity. We demonstrate that by exploiting destructive QI arising in the meta-substituted pyrene, it is possible to calibrate the sensor to enhance both its sensitivity and chemical selectivity by almost two orders of magnitude so that individual molecules can be detected and distinguished. These results provide a fundamental strategy to design high-performance chemical sensors with graphene functional blocks." @default.
W4224441450 created "2022-04-27" @default.
W4224441450 creator A5014762129 @default.
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W4224441450 creator A5054212495 @default.
W4224441450 date "2022-04-25" @default.
W4224441450 modified "2023-09-27" @default.
W4224441450 title "Enhancing the sensitivity and selectivity of pyrene-based sensors for detection of small gaseous molecules via destructive quantum interference" @default.
W4224441450 cites W1903028135 @default.
W4224441450 cites W1964285492 @default.
W4224441450 cites W1967853451 @default.
W4224441450 cites W1979070248 @default.
W4224441450 cites W1979245488 @default.
W4224441450 cites W1980451576 @default.
W4224441450 cites W1980516378 @default.
W4224441450 cites W1985252301 @default.
W4224441450 cites W1988761481 @default.
W4224441450 cites W1991623240 @default.
W4224441450 cites W1994481181 @default.
W4224441450 cites W1997989351 @default.
W4224441450 cites W1998577936 @default.
W4224441450 cites W2000935529 @default.
W4224441450 cites W2006234073 @default.
W4224441450 cites W2017584146 @default.
W4224441450 cites W2028964366 @default.
W4224441450 cites W2031159754 @default.
W4224441450 cites W2038841459 @default.
W4224441450 cites W2041814141 @default.
W4224441450 cites W2041858177 @default.
W4224441450 cites W2043279585 @default.
W4224441450 cites W2050189351 @default.
W4224441450 cites W2050890510 @default.
W4224441450 cites W2053613093 @default.
W4224441450 cites W2054923300 @default.
W4224441450 cites W2060082779 @default.
W4224441450 cites W2067026508 @default.
W4224441450 cites W2073859212 @default.
W4224441450 cites W2082846406 @default.
W4224441450 cites W2088321686 @default.
W4224441450 cites W2089490978 @default.
W4224441450 cites W2092302311 @default.
W4224441450 cites W2093045830 @default.
W4224441450 cites W2095313561 @default.
W4224441450 cites W2096474469 @default.
W4224441450 cites W2112616753 @default.
W4224441450 cites W2140372631 @default.
W4224441450 cites W2150687058 @default.
W4224441450 cites W2157882296 @default.
W4224441450 cites W2161928223 @default.
W4224441450 cites W2178763567 @default.
W4224441450 cites W2222517232 @default.
W4224441450 cites W2279521968 @default.
W4224441450 cites W2315505015 @default.
W4224441450 cites W2325373307 @default.
W4224441450 cites W2420137908 @default.
W4224441450 cites W2424368141 @default.
W4224441450 cites W2515264317 @default.
W4224441450 cites W2562007239 @default.
W4224441450 cites W2585216475 @default.
W4224441450 cites W2601081289 @default.
W4224441450 cites W2744353320 @default.
W4224441450 cites W2788254139 @default.
W4224441450 cites W2885805467 @default.
W4224441450 cites W2898143752 @default.
W4224441450 cites W2912207476 @default.
W4224441450 cites W2913247357 @default.
W4224441450 cites W2921524793 @default.
W4224441450 cites W2950755001 @default.
W4224441450 cites W2973444453 @default.
W4224441450 cites W3010294696 @default.
W4224441450 cites W3013635436 @default.
W4224441450 cites W3030856093 @default.
W4224441450 cites W3039309534 @default.
W4224441450 cites W3081244641 @default.
W4224441450 cites W3099089535 @default.
W4224441450 cites W3099677702 @default.
W4224441450 cites W3100058022 @default.
W4224441450 cites W3102610005 @default.
W4224441450 cites W3103010180 @default.
W4224441450 cites W3103149342 @default.
W4224441450 cites W3104850917 @default.
W4224441450 cites W3106032093 @default.
W4224441450 cites W3200827986 @default.
W4224441450 cites W4229701008 @default.
W4224441450 doi "https://doi.org/10.1103/physrevb.105.165428" @default.
W4224441450 hasPublicationYear "2022" @default.
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