SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4310147193> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W4310147193 endingPage "500" @default.
W4310147193 startingPage "500" @default.
W4310147193 abstract "Psychrotrophic bacteria, commonly called spoilage bacteria, can produce highly toxic hydrogen sulfide (H2S) in meat products. Thus, monitoring the presence of hydrogen sulfide in meat samples is crucial for food safety and storage. Here, we report a unique chemical sensor based on supramolecular nanorods synthesized via copper ion induced self-assembly of N,N-bis[aspartic potassium salt]-3,4,9,10-perylenetetracarboxylic diimide (APBI-K). The self-assembled nanorods can specifically detect sulfide with a detection limit of 0.181 μM in solution. The nanorods suspended in pure water show a turn-on fluorescence sensing behavior along with color change, acting as a dual fluorometric and colorimetric sensor. Spectroscopic investigation confirms the sensing mechanism due to copper ion displacement induced by the association with sulfide. Based on the high selectivity and sensitivity, supramolecular nanorod sensors were successfully employed to detect H2S in spoiled meat sample as well as dissolved H2S in water." @default.
W4310147193 created "2022-11-30" @default.
W4310147193 creator A5047177606 @default.
W4310147193 creator A5057499454 @default.
W4310147193 creator A5087818208 @default.
W4310147193 date "2022-11-25" @default.
W4310147193 modified "2023-10-01" @default.
W4310147193 title "A Dual Fluorometric and Colorimetric Sulfide Sensor Based on Coordinating Self-Assembled Nanorods: Applicable for Monitoring Meat Spoilage" @default.
W4310147193 cites W1967331058 @default.
W4310147193 cites W1972371610 @default.
W4310147193 cites W1977181728 @default.
W4310147193 cites W1982351730 @default.
W4310147193 cites W1983513124 @default.
W4310147193 cites W1986117411 @default.
W4310147193 cites W1988787717 @default.
W4310147193 cites W1989834585 @default.
W4310147193 cites W2003650740 @default.
W4310147193 cites W2025987860 @default.
W4310147193 cites W2026251098 @default.
W4310147193 cites W2031347662 @default.
W4310147193 cites W2035730149 @default.
W4310147193 cites W2048024271 @default.
W4310147193 cites W2067240672 @default.
W4310147193 cites W2078010849 @default.
W4310147193 cites W2113019955 @default.
W4310147193 cites W2137664020 @default.
W4310147193 cites W2139359652 @default.
W4310147193 cites W2166548950 @default.
W4310147193 cites W2171795723 @default.
W4310147193 cites W2192270416 @default.
W4310147193 cites W2207880074 @default.
W4310147193 cites W2254802495 @default.
W4310147193 cites W2280969240 @default.
W4310147193 cites W2323292362 @default.
W4310147193 cites W2327676827 @default.
W4310147193 cites W2327981091 @default.
W4310147193 cites W2329714167 @default.
W4310147193 cites W2339511459 @default.
W4310147193 cites W2466881375 @default.
W4310147193 cites W2517452770 @default.
W4310147193 cites W2558247280 @default.
W4310147193 cites W2585995388 @default.
W4310147193 cites W2588762808 @default.
W4310147193 cites W2591874287 @default.
W4310147193 cites W2672760448 @default.
W4310147193 cites W2740707154 @default.
W4310147193 cites W2765862572 @default.
W4310147193 cites W2768590554 @default.
W4310147193 cites W2778278758 @default.
W4310147193 cites W2804148998 @default.
W4310147193 cites W2806379976 @default.
W4310147193 cites W2806544819 @default.
W4310147193 cites W2884928886 @default.
W4310147193 cites W2887256626 @default.
W4310147193 cites W2888273792 @default.
W4310147193 cites W2888798101 @default.
W4310147193 cites W2903594717 @default.
W4310147193 cites W2930265669 @default.
W4310147193 cites W2936540242 @default.
W4310147193 cites W294147142 @default.
W4310147193 cites W2951729842 @default.
W4310147193 cites W2952916205 @default.
W4310147193 cites W2971421971 @default.
W4310147193 cites W2971599464 @default.
W4310147193 cites W2986332285 @default.
W4310147193 cites W2990621555 @default.
W4310147193 cites W3028738394 @default.
W4310147193 cites W3029497865 @default.
W4310147193 cites W3047370826 @default.
W4310147193 cites W3092023008 @default.
W4310147193 cites W3101894793 @default.
W4310147193 cites W3110891088 @default.
W4310147193 cites W3112123472 @default.
W4310147193 cites W3136281381 @default.
W4310147193 cites W3136444997 @default.
W4310147193 cites W3136879576 @default.
W4310147193 cites W3155668337 @default.
W4310147193 cites W3189714256 @default.
W4310147193 cites W3191539449 @default.
W4310147193 cites W4210506540 @default.
W4310147193 cites W4213418064 @default.
W4310147193 cites W4224084186 @default.
W4310147193 cites W4224142338 @default.
W4310147193 cites W4246100559 @default.
W4310147193 cites W4280587557 @default.
W4310147193 cites W4302009387 @default.
W4310147193 cites W4303579763 @default.
W4310147193 cites W2989699385 @default.
W4310147193 doi "https://doi.org/10.3390/chemosensors10120500" @default.
W4310147193 hasPublicationYear "2022" @default.
W4310147193 type Work @default.
W4310147193 citedByCount "2" @default.
W4310147193 countsByYear W43101471932023 @default.
W4310147193 crossrefType "journal-article" @default.
W4310147193 hasAuthorship W4310147193A5047177606 @default.
W4310147193 hasAuthorship W4310147193A5057499454 @default.
W4310147193 hasAuthorship W4310147193A5087818208 @default.
W4310147193 hasBestOaLocation W43101471931 @default.