Elena A. Chebotareva, Elmira I. Tsygulyova, Sergei Yu. Doronin
{"title":"非离子表面活性剂微萃取预富集及比色法测定苯酚","authors":"Elena A. Chebotareva, Elmira I. Tsygulyova, Sergei Yu. Doronin","doi":"10.18500/1816-9775-2023-23-3-289-298","DOIUrl":null,"url":null,"abstract":"The extraction of the tungsten blue complex formed by the reaction of phenol with Folin-Ciocalteu reagent (FCR) in the presence of a nonionic surfactant Triton X-100 in alkaline medium using the methodology of micellar extraction based on «clouding point» has been studied for the first time. Aqueous solutions of sodium carbonate and sodium sulfate were used to create pH and as a desalting agent. The latter, having a desalting effect, promotes phase separation in the system under study into a micellar phase saturated with surfactant (Triton X-100) and an aqueous phase depleted in surfactant without additional heating at room temperature. Optimal conditions for micellar phenol extraction were determined: FCR (0,2 n.) – Na2CO3 (6%) – Triton X-100 (2%) – Na2SO4 (3,2%). It is shown that micellar-saturated phases of Triton X-100 effectively extract the analytical form (tungsten blue complex), can be proposed for extraction-spectrophotometric and colorimetric determination of phenol. So, for the spectrophotometric determination of phenol (λmax= 760 nm), the Beer-Bouguer-Lambert law obeys an equation of the form: y = 0,0007x – 0,0079, R2 = 0,997. The range of defined contents is in the interval 7·10-7 – 6·10-5 M. A technique for the colorimetric determination of phenol in aqueous media (channel R) has been developed. The intensity of the chromaticity channel R (IR) linearly depends on pc(phenol) in accordance with the equation: y = 95,0x – 455; R2 = 0,997. The range of defined contents is in the interval 7·10-7 – 1·10-5 M. The profiles of the petal diagrams in the RGB CMYK color coordinates are constructed, the dependences of their area are obtained (S) and perimeter (P) from -lgc : (perimeter (P) y = 150x – 284; R2 = 0,994; area (S) y = 17710x – 66930; R2 = 0,994).","PeriodicalId":476403,"journal":{"name":"Izvestiâ Saratovskogo universiteta. Novaâ seriâ","volume":"337 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-09-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Microextraction preconcentration with nonionic surfactants and colorometric determination of phenol\",\"authors\":\"Elena A. Chebotareva, Elmira I. Tsygulyova, Sergei Yu. Doronin\",\"doi\":\"10.18500/1816-9775-2023-23-3-289-298\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The extraction of the tungsten blue complex formed by the reaction of phenol with Folin-Ciocalteu reagent (FCR) in the presence of a nonionic surfactant Triton X-100 in alkaline medium using the methodology of micellar extraction based on «clouding point» has been studied for the first time. Aqueous solutions of sodium carbonate and sodium sulfate were used to create pH and as a desalting agent. The latter, having a desalting effect, promotes phase separation in the system under study into a micellar phase saturated with surfactant (Triton X-100) and an aqueous phase depleted in surfactant without additional heating at room temperature. Optimal conditions for micellar phenol extraction were determined: FCR (0,2 n.) – Na2CO3 (6%) – Triton X-100 (2%) – Na2SO4 (3,2%). It is shown that micellar-saturated phases of Triton X-100 effectively extract the analytical form (tungsten blue complex), can be proposed for extraction-spectrophotometric and colorimetric determination of phenol. So, for the spectrophotometric determination of phenol (λmax= 760 nm), the Beer-Bouguer-Lambert law obeys an equation of the form: y = 0,0007x – 0,0079, R2 = 0,997. The range of defined contents is in the interval 7·10-7 – 6·10-5 M. A technique for the colorimetric determination of phenol in aqueous media (channel R) has been developed. The intensity of the chromaticity channel R (IR) linearly depends on pc(phenol) in accordance with the equation: y = 95,0x – 455; R2 = 0,997. The range of defined contents is in the interval 7·10-7 – 1·10-5 M. The profiles of the petal diagrams in the RGB CMYK color coordinates are constructed, the dependences of their area are obtained (S) and perimeter (P) from -lgc : (perimeter (P) y = 150x – 284; R2 = 0,994; area (S) y = 17710x – 66930; R2 = 0,994).\",\"PeriodicalId\":476403,\"journal\":{\"name\":\"Izvestiâ Saratovskogo universiteta. Novaâ seriâ\",\"volume\":\"337 1\",\"pages\":\"0\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2023-09-22\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Izvestiâ Saratovskogo universiteta. 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Microextraction preconcentration with nonionic surfactants and colorometric determination of phenol
The extraction of the tungsten blue complex formed by the reaction of phenol with Folin-Ciocalteu reagent (FCR) in the presence of a nonionic surfactant Triton X-100 in alkaline medium using the methodology of micellar extraction based on «clouding point» has been studied for the first time. Aqueous solutions of sodium carbonate and sodium sulfate were used to create pH and as a desalting agent. The latter, having a desalting effect, promotes phase separation in the system under study into a micellar phase saturated with surfactant (Triton X-100) and an aqueous phase depleted in surfactant without additional heating at room temperature. Optimal conditions for micellar phenol extraction were determined: FCR (0,2 n.) – Na2CO3 (6%) – Triton X-100 (2%) – Na2SO4 (3,2%). It is shown that micellar-saturated phases of Triton X-100 effectively extract the analytical form (tungsten blue complex), can be proposed for extraction-spectrophotometric and colorimetric determination of phenol. So, for the spectrophotometric determination of phenol (λmax= 760 nm), the Beer-Bouguer-Lambert law obeys an equation of the form: y = 0,0007x – 0,0079, R2 = 0,997. The range of defined contents is in the interval 7·10-7 – 6·10-5 M. A technique for the colorimetric determination of phenol in aqueous media (channel R) has been developed. The intensity of the chromaticity channel R (IR) linearly depends on pc(phenol) in accordance with the equation: y = 95,0x – 455; R2 = 0,997. The range of defined contents is in the interval 7·10-7 – 1·10-5 M. The profiles of the petal diagrams in the RGB CMYK color coordinates are constructed, the dependences of their area are obtained (S) and perimeter (P) from -lgc : (perimeter (P) y = 150x – 284; R2 = 0,994; area (S) y = 17710x – 66930; R2 = 0,994).