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W3114160103 endingPage "1" @default.
W3114160103 startingPage "1" @default.
W3114160103 abstract "Perylene imide (PI) molecules and materials have been extensively studied for optical chemical sensors, particularly those based on fluorescence and colorimetric mode, taking advantage of the unique features of PIs such as structure tunability, good thermal, optical and chemical stability, strong electron affinity, strong visible light absorption and high fluorescence quantum yield. PI-based optical chemosensors have now found broad applications in gas phase detection of chemicals, including explosives, biomarkers of some food and diseases (such as organic amines (alkylamines and aromatic amines)), benzene homologs, organic peroxides, phenols and nitroaromatics, etc. In this review, the recent research on PI-based fluorometric and colorimetric sensors, as well as array technology incorporating multiple sensors, is reviewed along with the discussion of potential applications in environment, health and public safety areas. Specifically, we discuss the molecular design and aggregate architecture of PIs in correlation with the corresponding sensor performances (including sensitivity, selectivity, response time, recovery time, reversibility, etc.). We also provide a perspective summary highlighting the great potential for future development of PIs optical chemosensors, especially in the sensor array format that will largely enhance the detection specificity in complexed environments." @default.
W3114160103 created "2021-01-05" @default.
W3114160103 creator A5000626616 @default.
W3114160103 creator A5027999704 @default.
W3114160103 creator A5036031567 @default.
W3114160103 creator A5041026183 @default.
W3114160103 creator A5047177606 @default.
W3114160103 creator A5049317673 @default.
W3114160103 creator A5084410248 @default.
W3114160103 date "2020-12-22" @default.
W3114160103 modified "2023-10-16" @default.
W3114160103 title "Perylene Imide-Based Optical Chemosensors for Vapor Detection" @default.
W3114160103 cites W1874408091 @default.
W3114160103 cites W1965671968 @default.
W3114160103 cites W1970130500 @default.
W3114160103 cites W1970333295 @default.
W3114160103 cites W1980567381 @default.
W3114160103 cites W1990774389 @default.
W3114160103 cites W1991062703 @default.
W3114160103 cites W1994405482 @default.
W3114160103 cites W2002378873 @default.
W3114160103 cites W2006768910 @default.
W3114160103 cites W2025158802 @default.
W3114160103 cites W2025681132 @default.
W3114160103 cites W2025785781 @default.
W3114160103 cites W2028772401 @default.
W3114160103 cites W2030940528 @default.
W3114160103 cites W2052279591 @default.
W3114160103 cites W2052315155 @default.
W3114160103 cites W2066540211 @default.
W3114160103 cites W2067062491 @default.
W3114160103 cites W2075075275 @default.
W3114160103 cites W2075836999 @default.
W3114160103 cites W2075931182 @default.
W3114160103 cites W2078010849 @default.
W3114160103 cites W2078236564 @default.
W3114160103 cites W2078667782 @default.
W3114160103 cites W2087312756 @default.
W3114160103 cites W2088735407 @default.
W3114160103 cites W2090597482 @default.
W3114160103 cites W2091089517 @default.
W3114160103 cites W2094566390 @default.
W3114160103 cites W2102394379 @default.
W3114160103 cites W2110254285 @default.
W3114160103 cites W2116764827 @default.
W3114160103 cites W2140002597 @default.
W3114160103 cites W2145214996 @default.
W3114160103 cites W2159961408 @default.
W3114160103 cites W2162124906 @default.
W3114160103 cites W2167087575 @default.
W3114160103 cites W2167240759 @default.
W3114160103 cites W2202997673 @default.
W3114160103 cites W2207880074 @default.
W3114160103 cites W2312070237 @default.
W3114160103 cites W2314564962 @default.
W3114160103 cites W2316733506 @default.
W3114160103 cites W2317193142 @default.
W3114160103 cites W2324769705 @default.
W3114160103 cites W2329363801 @default.
W3114160103 cites W2333988885 @default.
W3114160103 cites W2345986235 @default.
W3114160103 cites W2410056913 @default.
W3114160103 cites W2414976211 @default.
W3114160103 cites W2467595579 @default.
W3114160103 cites W2508435532 @default.
W3114160103 cites W2517069775 @default.
W3114160103 cites W2528264750 @default.
W3114160103 cites W2529591069 @default.
W3114160103 cites W2559594984 @default.
W3114160103 cites W2736349803 @default.
W3114160103 cites W2739896994 @default.
W3114160103 cites W2748571090 @default.
W3114160103 cites W2752377938 @default.
W3114160103 cites W2763111067 @default.
W3114160103 cites W2764886111 @default.
W3114160103 cites W2766198875 @default.
W3114160103 cites W2775728483 @default.
W3114160103 cites W2802863785 @default.
W3114160103 cites W2804854298 @default.
W3114160103 cites W2809244510 @default.
W3114160103 cites W2889675990 @default.
W3114160103 cites W2889814018 @default.
W3114160103 cites W2903940627 @default.
W3114160103 cites W2903954772 @default.
W3114160103 cites W2904463781 @default.
W3114160103 cites W2926683152 @default.
W3114160103 cites W2937287761 @default.
W3114160103 cites W2951443955 @default.
W3114160103 cites W2977728493 @default.
W3114160103 cites W2999279082 @default.
W3114160103 cites W3000362346 @default.
W3114160103 cites W3005310025 @default.
W3114160103 cites W3008490771 @default.
W3114160103 cites W3022360273 @default.
W3114160103 cites W3030093387 @default.
W3114160103 cites W3036273919 @default.
W3114160103 cites W3046438118 @default.
W3114160103 doi "https://doi.org/10.3390/chemosensors9010001" @default.