D. Snigur, D. Barbalat, O. Zhukovetska, O. Guzenko, T. M. Scherbakova, O. M. Chebotarev
{"title":"6,7-二羟基- 4-羧基- 2-苯基苯并吡啶高氯酸盐分光光度法测定铋(iii)","authors":"D. Snigur, D. Barbalat, O. Zhukovetska, O. Guzenko, T. M. Scherbakova, O. M. Chebotarev","doi":"10.18524/2304-0947.2022.1(81).255832","DOIUrl":null,"url":null,"abstract":"In the current study, the peculiarities of the complexation of Bi(III) with 6,7-dihyroxy‑4-carboxyl‑2-phenylbenzopyrylium perchlorate (CDC) in binary systems and in the presence of cationic surfactants (Surf) were studied. Using classical spectrophotometric methods of molar ratios and equilibrium shift, it was found that in two systems two complexes with stoichiometry Bi(III): CDC are formed: 1:2 and 1:3 at pH 2.0 and pH 4.5, respectively. Molar light absorption coefficients were calculated for Bi(III) complexes with CDC, which are 1.4⸱104 and 1.0⸱104, respectively. It is shown that in the presence of cetylpyridinium chloride or cetyltrimetrylammonium bromide complexes with a molar ratio of Bi(III): CDC: Surf =1:3:3 are formed. In the presence of cationic surfactants there is no shift in the optimal pH of complexation, but there is an increase in the number of coordinated reagent molecules due to the loosening of the hydrate shell of the ion Bi(III) due to hydrophobic hydration of the complex. In addition, the introduction of cationic surfactants leads to a batochromic shift of the absorption band by 10–15 nm and an increase in the molar absorption coefficient to 3.1⸱104 and 4.1⸱104 when using cetylpyridinium chloride or cetyltrimetrylammonium bromide, respectively. Methods of spectrophotometric determination of Bi(III) with the use of analytical forms based on complexes of 1:2 and ternary complex 1:3:3 were developed, which were tested in the analysis of pharmaceuticals, alloys and model solutions. It is noted that the proposed methods are characterized by satisfactory reproducibility and are not inferior in sensitivity to known analogues.","PeriodicalId":19451,"journal":{"name":"Odesa National University Herald. Chemistry","volume":"88 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-06-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"SPECTROPHOTOMETRIC DETERMINATION OF BISMUTH (III) WITH 6,7-DIHYDROXY‑4-CARBOXYL‑2-PHENYLBENZOPYRILIUM PERCHLORATE\",\"authors\":\"D. Snigur, D. Barbalat, O. Zhukovetska, O. Guzenko, T. M. Scherbakova, O. M. Chebotarev\",\"doi\":\"10.18524/2304-0947.2022.1(81).255832\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"In the current study, the peculiarities of the complexation of Bi(III) with 6,7-dihyroxy‑4-carboxyl‑2-phenylbenzopyrylium perchlorate (CDC) in binary systems and in the presence of cationic surfactants (Surf) were studied. Using classical spectrophotometric methods of molar ratios and equilibrium shift, it was found that in two systems two complexes with stoichiometry Bi(III): CDC are formed: 1:2 and 1:3 at pH 2.0 and pH 4.5, respectively. Molar light absorption coefficients were calculated for Bi(III) complexes with CDC, which are 1.4⸱104 and 1.0⸱104, respectively. It is shown that in the presence of cetylpyridinium chloride or cetyltrimetrylammonium bromide complexes with a molar ratio of Bi(III): CDC: Surf =1:3:3 are formed. In the presence of cationic surfactants there is no shift in the optimal pH of complexation, but there is an increase in the number of coordinated reagent molecules due to the loosening of the hydrate shell of the ion Bi(III) due to hydrophobic hydration of the complex. In addition, the introduction of cationic surfactants leads to a batochromic shift of the absorption band by 10–15 nm and an increase in the molar absorption coefficient to 3.1⸱104 and 4.1⸱104 when using cetylpyridinium chloride or cetyltrimetrylammonium bromide, respectively. Methods of spectrophotometric determination of Bi(III) with the use of analytical forms based on complexes of 1:2 and ternary complex 1:3:3 were developed, which were tested in the analysis of pharmaceuticals, alloys and model solutions. It is noted that the proposed methods are characterized by satisfactory reproducibility and are not inferior in sensitivity to known analogues.\",\"PeriodicalId\":19451,\"journal\":{\"name\":\"Odesa National University Herald. 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SPECTROPHOTOMETRIC DETERMINATION OF BISMUTH (III) WITH 6,7-DIHYDROXY‑4-CARBOXYL‑2-PHENYLBENZOPYRILIUM PERCHLORATE
In the current study, the peculiarities of the complexation of Bi(III) with 6,7-dihyroxy‑4-carboxyl‑2-phenylbenzopyrylium perchlorate (CDC) in binary systems and in the presence of cationic surfactants (Surf) were studied. Using classical spectrophotometric methods of molar ratios and equilibrium shift, it was found that in two systems two complexes with stoichiometry Bi(III): CDC are formed: 1:2 and 1:3 at pH 2.0 and pH 4.5, respectively. Molar light absorption coefficients were calculated for Bi(III) complexes with CDC, which are 1.4⸱104 and 1.0⸱104, respectively. It is shown that in the presence of cetylpyridinium chloride or cetyltrimetrylammonium bromide complexes with a molar ratio of Bi(III): CDC: Surf =1:3:3 are formed. In the presence of cationic surfactants there is no shift in the optimal pH of complexation, but there is an increase in the number of coordinated reagent molecules due to the loosening of the hydrate shell of the ion Bi(III) due to hydrophobic hydration of the complex. In addition, the introduction of cationic surfactants leads to a batochromic shift of the absorption band by 10–15 nm and an increase in the molar absorption coefficient to 3.1⸱104 and 4.1⸱104 when using cetylpyridinium chloride or cetyltrimetrylammonium bromide, respectively. Methods of spectrophotometric determination of Bi(III) with the use of analytical forms based on complexes of 1:2 and ternary complex 1:3:3 were developed, which were tested in the analysis of pharmaceuticals, alloys and model solutions. It is noted that the proposed methods are characterized by satisfactory reproducibility and are not inferior in sensitivity to known analogues.
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