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양이온교환수지에 의한 비스무트 지금 및 합금의 분리 정량
박면용,이병조,박기채,Myon-young Park,Byong-Cho Lee,Kee-Chae Park 대한화학회 1971 대한화학회지 Vol.15 No.2
It is shown that the impurities of Cu(II), Pb(II), Zn(II) and Ag(I) in Bismuth metal and the components of Pb(II), Zn(II) and Sn(IV) in Bismuth alloy are separated into their components from each other by elutions through $3.14cm^2{\times}10cm$ cation exchange resin, $Dowex\;50w\;{\times}\;8$ (100~200 mesh), column with the mixed solutions of HAc and NaAc as the eluents. The elution curve of Fe(III) has a long tailing and is not separated quantitatively from Bi(III). The eluents used for this separation are as follows; 1M HAc + 0.1M NaAc (pH 3.36) for Fe(III) and Bi (III). 0.3M HAc + 0.3M NaAc (pH 4.70) for Cu(II), Pb(II) and Zn(II). 0.5M HAc + 0.5M NaAc (pH4.70) for Ag(I) and Sn(IV). The analysis of cations eluted are carried out by spectrophotometry and EDTA titrimetry. Their recoveries are more than 99%.
양이온교환수지에 의한 알칼리 토금속 및 합금의 분리정량
박면용,이병조,박기채,Myon-Yong Park,Byong Cho Lee,Kee Chae Park 대한화학회 1971 대한화학회지 Vol.15 No.2
The various eluents have been used for the separations of alkaline earth metals by elutions through cation exchange resin column by many investigators. We find, the mixed solution of 1M HAc and 1M NaAc (pH 4.75) is the best eluent for this purpose, becouse the one step elution through 7cm Dowex 50w${\times}$8(100~200mesh) resin column with this eluent, gives the quantitative separation. When 2M NaAc is used as a eluent Sr(II) and Ba(II) is separated easily without any contamination of Mg(II) andCa(II). The Ca-Pb alloy which is composed of Cu, Ca, Sr, Ba and abundance of Pb metal is separated quantitatively into its components by the two step elution with 0.3M HAc + 0.3M NaAc(PH 4.75) and 0.5M HAc + 0.5M NaAc(PH 4.75) as eluents through 10cm resin column.
Bismark Brown R을 이용한 Al(III) 및 Cr(III)의 비색정량
김선덕,이병조,박면용,Sun Duek Kim,Byong Cho Lee,Myon Yong Park 대한화학회 1981 대한화학회지 Vol.25 No.4
Al(III)과 Cr(III)을 여러 양이온과 음이온의 공존하에서 가리움제를 사용하지 않고 Bismark Brown R{4,4'[(4-methyl-1,3-phenylene)bis(azo)]-bis(6-methyl-1,3-benzenediamine)dihydrochloride)을 사용하여 정량하였다. 그러나 타르타르산과 시트르산이 공존하면 방해하였다. Al(III)과 Cr(III)은 같은 파장에서 최대흡광도를 나타내므로 Cr(III)을 Cr(VI)으로 산화시키면 Al(III)과 Cr(III)을 선택적으로 정량할 수 있었다. Al(III) and Cr(III) were determined selectively by colorimetry of Bismark Brown R {4,4'[(4-methyl-1,3-phenylene)bis(azo)]-bis(6-methyl-1,3-benzenediamine) dihydrochloride} in the presence of the various cations and anions without the using of any masking agents, but tartrate and citrate ions were interfered. The ligand of Bismark Brown R and complexes of Al(III) and Cr(III) were shown the maximum absorbance at the same wavelength together and both metallic ion were interfered to determine each other, but Al(III) were able to determine after oxidation of Cr(III) to Cr(VI).
정우태,박면용,이병조,박기채,Woo-Tae Chung,Myon-Yong Park,Byong-Cho Lee,Kee-Chae Park 대한화학회 1976 대한화학회지 Vol.20 No.1
염산 산성(1∼4N) 용액에서 Zr(IV)-XO 착물의 흡광도가 옥살산의 첨가량에 반비례하는 현상을 이용하여 미량의 옥살산을 정량하는 방법을 확립하였다. 말산, 말론산, 말레산, 후마르산, 숙신산, 엽산, 글루타민산은 옥살산량의 100배가 공존하여도 미량의 옥살산을 정량하는 데 방해하지 않지만 타르타르산과 시트르산은 옥살산 보다 많으면 방해한다. The determination of oxalic acid is carried out with Zr(IV)-XO complex by spectrophotometry. The Mechanism of this method in 1∼4N HCl solution is shown below (XO = xylenol orange); Zr(IV)+XO=Zr(IV)-XO+ excess XO, Zr(IV) - XO + oxalate = Zr(IV)-oxalate + XO When oxalic acid is added to Zr(IV)-XO complex(red color), the absorbance of Zr(IV) - XO complex is decreased in proportional to the amount of oxalic acid. The malic, malonic, maleic, fumaric, succinic, folic and glutamic acid did not interfere even if they are present in hundred times of oxalic acid. If they are present in the same amount as oxalic acid, citric and tartaric acid did not interfere but they are interfere when they are present in much more than that of oxalic acid.
이병조,박면용,이진휘 건국대학교 1975 學術誌 Vol.19 No.1
The various eluants have been used for the seperation of metallic ion by elution through cation exchange resin column by many investigator. We find that the mixed solution of acetic acid and sodium acetate is not only the best eluant for the analyses of the impurities in Copper, Bismuth, Zinc and Lead Metal, but also for alkaline earth metal. The distribution ratioes of the metals are determined by using the same eluants and discussed the adsorbed behaviour to cation exchange lesion.