• Title/Summary/Keyword: Hydrazine determination

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Indirect Spectrophotometric Determination of Trace Quantities of Hydrazine

  • Haji Shabani, A.M.;Dadfarnia, S.;Dehghan, K.
    • Bulletin of the Korean Chemical Society
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    • v.25 no.2
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    • pp.213-215
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    • 2004
  • An indirect, sensitive and accurate method for the determination of trace amounts of hydrazine is described. The method is based on the oxidation of hydrazine by a known excess of iodate in the presence of hydrochloric acid. The unreacted iodate is used in the oxidation of hydroxylamine to nitrite. Sulfanilic acid is diazotized by the nitrite formed. The resulting diazonium ion is coupled with N-(1-naphthyl)ethylenediamine to form a stable azo dye, which shows an absorption maximum at 540 nm. Hydrazine can be determined in the range of 20-400 ng $mL^{-1}$ with a detection limit of 3.1 ng $mL^{-1}$. The relative standard deviation for 50, 200 and 400 ng $mL^{-1}$ of hydrazine is 2, 1.5 and 1.3%, respectively (n = 10). The method was applied to the determination of hydrazine in water samples.

2,3-Dichloro-5,6-Dicyano-1,4-Benzoquinone As a Redox Titrant

  • El-Brash, A.M.;El-Hussain, Laila A.
    • Archives of Pharmacal Research
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    • v.20 no.6
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    • pp.597-601
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    • 1997
  • An oxidimetric titrant, 2, 3-dichloro-5, 6-dicyano-1, 4-benzoquinone in anhydrous acetic acid is used for the semimicro-determination of hydrazine hydrate, phenylhydrazine hydrochloride, isoniazid and iproniazid phosphate in pure forms as well as in some pharmaceutical preparations containing isoniazid and iproniazid phosphate. The end point was detected potentiometrically using a platinum-calomel combination electrode. The results obtained are compared statistically with those obtained by the official methods and they are in good agreement.

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Studies on 1-Isonicotinoyl-2-furfurylidene hydrazine-Cu(II) Complex Compound. (1-Isonicotinoyl-2-furfurylidene Hydrazine-Cu(II) 착화합물에 관한 분석화학적연구)

  • 백남호;최윤수
    • YAKHAK HOEJI
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    • v.9 no.1_2
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    • pp.18-22
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    • 1965
  • A new organic reagent, 1-isonicotinoyl-2-furfurylidene hydrazine was synthesized from isonicotinic acid hydrazide and furfural, gives precipitate with copper(II), mercury(II) and argent(I), whereas, it gives a water soluble yellow complex with iron(III). Copper complex of the reagent is soluble in EtOH MtOH, pyridine, dioxane and dimethylformamide with green yellow coloration. The complex has a maximum absorption at 385 m.$\mu$ and molar ratio of copper; reagent was estimated as 1:1 by continuous variation method, slop method and chelate titration method. Molar extinction coefficient (9600) and apparant formation constant of this complex was spectrophotometrically determined. K=1.7 * $10^{7}$ (Babko's method) K=2.1 * $10^{7}$ (Anderson's method). This reagent reacted with copper so sensitive that it would be available for determination of Cu (II).

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Continuous-Flow Analysis for Determination of Nitrate Using Hydrazine-Copper Method in Plan (Hydrazine-Copper 방법을 이용한 연속흐름제어장치를 통한 식물체의 nitrate 분석)

  • Park, Yang-Ho;Park, So-Hyeon;Lee, Ju-Young;Jang, Byoung-Choon;Lee, Ki-Sang
    • Korean Journal of Soil Science and Fertilizer
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    • v.39 no.4
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    • pp.204-208
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    • 2006
  • This study is to describe continuous-flow analysis (CFA) for the determination of nitrate using hydrazine-copper in plant material and to test precision of this method compared with that of methods, which are RQflex method and salicylic acid method. Samples were leaves of watermelon, cucumber, melon and tomato. Nitrate values measured by the RQflex method were greater than those measured by CFA or salicylic acid method. The correlation of nitrate values between those measured by CFA and salicylic acid method was $R^2=0.9671$, and those measured by CFA between those measured by RQflex method was $R^2=0.9739$. Recovery rate of nitrate added to tissue extract by CFA method was $99.7{\pm}0.25%$.

Adsorptive Stripping Voltammetric Determination of Ruthenium (흡착 벗김법에 의한 루테늄 정량)

  • Hong, Tae-Kee;Kwon, Young-Soon;Czae, Myung-Zoon
    • Analytical Science and Technology
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    • v.10 no.2
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    • pp.119-125
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    • 1997
  • A stripping voltammetric procedure for determining ruthenium was developed, based on the adsorptive accumulation of ruthenium in the presence of hydrazine in acidic acetate buffer. After preconcentration of ruthenium compelex and reduction, the ruthenium-catalyzed hydrogen current at -0.84V was measured by differential pulse voltammetry. Optimal experimental conditions were found to be a stirred acetate buffer solution(pH 2.0) containing 0.01M acetate and 0.01M hydrazine, accumulation potential of -0.76V, and a scan rate of 5mV/s. The detection limit was $2{\times}10^{-9}M$ for a 7 min accumulation period. The possible interferences by other platinum group metals were also investigated.

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A Study on the Determination of$N(NO_2^-),\;N(NO_3^-)$and$N(NH_4^+)$in Environmental Samples by Flow Injection Analysis (흐름주입분석법에 의한 환경시료 중$N(NO_2^-),\;N(NO_3^-)$$N(NH_4^+)$의 정량분석에 관한 연구)

  • Rhee, Jae Seong;Kim, Young Sang;Jung, Yun Hee;Rhee, Hee Jung
    • Journal of the Korean Chemical Society
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    • v.41 no.5
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    • pp.256-265
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    • 1997
  • A rapid and sequential method was studied, which can determine nitrite, nitrate and ammonium ion in soil or water samples with flow injection analysis. Geometric factors including injection volume, length of the reaction coil and flow rate of carrier solution were investigated prior to sample measurement. Nitrite was determined at 540 nm by Griess reaction producing azo dye between N-(1-naphthylethylenediamine dihydrochloride) and sulfanilamide. Nitrate was also measured under the help of reduction mechanism toward nitrite with hydrazine. Ammonium was analyzed at 440 nm with Nessler's reagent. At the optimum condition, the detection limit(S/N=3) has been shown 0.1 ㎍/mL N(NO2-), 0.4 ㎍/mL N(NO3-) and 0.3 ㎍/mL N(NH4+) respectively. The results measured by colorimetry, ion chromatography and FIA were compared showing 80%-125% reasonable match each other. Injection throughput rate could be performed better than 30 times per hour.

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Simultaneous Determination of Traces of Platinum and Rhodium by Differential Pulse Polarograpy (펄스 차이 폴라로그래피법에 의한 미량 백금과 로듐의 동시 정량)

  • Czae, Myoung-Zoon;Lee, Chul;Hong, Tae-Kee;Kwon, Young-Soon;Hong, Mi-Jeong
    • Journal of the Korean Chemical Society
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    • v.39 no.1
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    • pp.35-39
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    • 1995
  • Simultaneous measurements of trace platinum and rhodium, based on catalytic reduction of protons by the adsorbed Pt-formazone and Rh-formaldehyde complexes formed in formaldehyde-hydrazine-sulfuric acid medium, were demonstrated. The conditions for the measurements of Pt and Rh both present at trace levels (>10-10 M) were 0.004% (w/v) formaldehyde-0.0012% (w/v) hydrazine-0.75 M sulfuric acid. In this medium method detection limits are 7.3${\times}$10-11 M Pt and 3.2${\times}$10-11 M Rh. And dynamic ranges are 5${\times}$10-10~6${\times}$10-8 M and 1${\times}$10-10∼2${\times}$10-8 M for platinum and rhodium respectively. In the linear dynamic ranges, Rh and Ir interfere platinum in the presence of only 10 and 100 times that of Pt respectively. There are no interferences from other platinum group metal ions for rhodium even in the presence of a 500-fold excess of Ir(IV), a hundredfold excess of platinum.

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The study on the measurement of formaldehyde in saliva and urine by GC-MS (가스크로마토그래프-질량분석기에 의한 타액 및 뇨 중 포름알데하이드 분석법 연구)

  • Shin, Ho-Sang;Ahn, Hye-Sil
    • Analytical Science and Technology
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    • v.19 no.2
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    • pp.149-154
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    • 2006
  • A gas chromatography-mass spectrometric method was developed for the determination of formaldehyde in urine and saliva. In a 20 mL glass tube, 0.2 mL of urine or saliva was taken. Further, 1.8 mL of 0.1 M HCl, 0.1 mL of 2,000 mg/L 2,4-dinitrophenyl hydrazine and $20{\mu}l$ of 500 mg/L acetone-$d_6$ as internal standard were added in the tube and sealed tightly with cap. The solution was shaken for 20 min at room temperature and extracted using 4 mL of toluene. The extract was concentrated and redissolved with $100{\mu}l$ of acetonitrile, and then measured by gas chromatography-mass spectrometer (selected ion monitoring). The detection limit was 2.0 ng/mL and 0.5 ng/mL in saliva and urine, respectively. The calibration curves showed good linearity with r = 0.997 and 0.998 for saliva and urine, respectively. The method was used to analyze formaldehyde in rat urine after oral exposure. The developed method may be use ful to the monitoring for formaldehyde exposure in human.