Determination of nicotinamide (NA) using its polarographic catalytic wave in the presence of KIO3

Nicotinamide (NA) yields a polarographic catalytic wave with a peak potential –1.38 V (vs. SCE) in 0.1 mol/L HAc-NaAc (pH 4.7)/4 × 10^–3 mol/L KIO₃ buffer solution. The sensitivity of the catalytic wave increased in one order of magnitude as compared to that of the responding reduction wave without KIO₃. Based on this observation, a new method for the determination of NA was recommended. The second order derivative peak current was proportional to the NA concentration in the range of 5 × 10^–8 – 6 × 10^–7 mol/L. 0.11-fold vitamin B₁, 0.13-fold B₂, 0.14-fold B₆ and 8-fold nicotinic acid amounts do not interfere the determination of 1 × 10^–6 mol/L NA. The proposed method was used to determine the NA content in multivitamin tablets, with good agreement to the declared amount. Received: 25 October 1999 / Revised: 28 March 2000 / /Accepted: 31 March 2000     

极谱催化波法测定土霉素

H2 O2 存在时 ,产生土霉素的极谱催化波 ,该催化波的灵敏度比相应土霉素的还原波高 8倍 ,据此拟定了测定土霉素的新方法。在 0 .1 0mol LKH2 PO4 Na2 HPO4(pH 7.4± 0 .2 ) - 1 .6× 1 0 -3 mol LH2 O2 底液中 ,催化波峰电流与土霉素浓度在 5 .0× 1 0 -7～ 9.0× 1 0 -6mol L范围内呈线性关系 (n =1 0 ,r=0 9996)。检出限为 1 .0× 1 0 -7mol L。     

A new type of polarographic catalytic wave of organic compound——Studies on the polarographic catalytic wave of medroprogesterone acetate in the presence of KIO_3

The polarographic behavior and catalytic wave mechanism of medroprogesterone acetate (MPA) were studied in both aqueous and DMF media. In 0.2 mol/L acetic acid-sodium acetate (pH 5.0) buffer solution, the C=C bond of MPA first undergoes le, lH~ reduction to form protonated free radical HMPA(?), the further reduction of HMPA(?) in le, 1H~ process is simultaneous with the dimerization reaction between HMPA(?) and neutral molecular MPA. In DMF media containing 0.1 mol/L tetrabutylammonium tetrafluoborate (TBA·BF_4), the C=C bond of MPA shows two le, 1H~ reduction waves, which are ascribed to the reduction of MPA and free radical MPA, respectively. Here, no dimerization reaction occurs. These processes produce the reduction wave of MPA. In the presence of oxidant KIO_3, a polarographic catalytic wave of MPA is observable due to a chemical reaction between HMPA(?) or MPA(?) and KIO_3 as well as its intermediate species to regenerate MPA. The catalytic wave, which is caused by the reduction of organic com     

极谱催化波法测定中草药中的芦丁

基于芦丁在K2S2O8存在下产生的极谱催化波,拟定了测定中草药中芦丁的方法。在0.1 mol/L HAc-NaAc(pH 3.60±0.05),8×10-3mol/L K2S2O8支持电解质中,芦丁催化波峰电位为-1.37 V(vs.SCE),它的二阶导数峰电流与其浓度在1.6×10-6~1.6×10-5mol/L范围内呈线性关系(r=0.9960,n=6)。检出限为9.013×10-11mol/L,回收率为96.18%~102.66%。样品可不经分离,直接测定。采用该方法测得山楂和川明参中芦丁的质量分数分别为1.78%和1.60%。     

盐酸羟胺存在下极谱动力波法测定阿托品

研究了NH2 OH·HCl存在下测定阿托品的极谱动力波法。在 0 .1mol/LLiCl 4.4× 1 0 - 3 mol/LNH2 OH·HCl支持电解质溶液中 ,阿托品于 - 1 .90V(vs.SCE)处产生一个极谱动力波 ,其二阶导数峰电流与阿托品在 6.0× 1 0 - 5～ 4.0×1 0 - 4 mol/L浓度范围内呈线性关系 (r=0 .9992 ,n =5 )。与无NH2 OH·HCl存在时相应还原波相比 ,该动力波电流可提高分析灵敏度一个数量级。讨论了该动力波的产生机理     

Differential pulse polarographic determination of selenium(IV) in whole blood using the catalytic hydrogen wave

The selenium content in blood was determined using the hydrogen catalytic peak. This peak at -1.1 V was obtained in the presence of selenium and molybdenum at pH values of 1-4 in different buffers. For the determination of selenium, the Mo(VI) concentration has to be approximately 100-200 times higher than the selenium present. The linear domain range of selenium is 1x10(-6)-5x10(-9) M. The interference of zinc is eliminated by the addition of EDTA at pH 3.5 acetate buffer. The method was applied to 1.0 ml of digested blood, and 620+/-44 mug l(-1) Se and 7.15 mg l(-1) Zn could be determined with a 90% (n=6) confidence interval.     

Determination of lomefloxacin, an antibacterial drug, in pharmaceutical preparations based on its polarographic catalytic wave in the presence of 2-iodoacetamide.

In a 0.125 mol/L phosphate (pH 6.6)/2.5 x 10(-4) mol/L 2-iodoacetamide solution, lomefloxacin yields a response of a polarographic catalytic current. The second-order derivative peak current of the catalytic wave of lomefloxacin is proportional to its concentration in the range of 1.0 x 10(-8)-1.0 x 10(-6) mol/L (r = 0.998). The sensitivity of the catalytic wave is 25-times higher than that of the corresponding reduction wave for 5.0 x 10(-7) mol/L lomefloxacin. The proposed method was applied to the determination of lomefloxacin in pharmaceutical preparations. The polarographic reduction wave is ascribed to a one-electron reduction of the C=C bond of lomefloxacin zwitterion accompanied by an acid-base equilibrium. The catalytic wave should be caused by regeneration of the lomefloxacin molecule at electrode surface due to the one-electron reduction product being further oxidized by electroreductive intermediate products of 2-iodoacetamide.     

过硫酸钾存在下曲匹布通极谱平行催化波的研究及其应用

采用平行催化波法、循环伏安法等手段研究了在KH2PO4-Na2HPO4介质中过二硫酸钾存在下曲匹布通平行催化波产生的机理。曲匹布通的羰基官能团C=O在KH2PO4-Na2HPO4介质中以2e-,2H+方式极谱还原,产生了单个还原波。加入氧化剂过二硫酸钾时,曲匹布通还原中间体自由基在电极表面上能被过二硫酸钾及其中间还原体硫酸根阴离子自由基氧化,再生为原可还原基团C=O,从而产生了曲匹布通的平行催化波。基于此,提出了一种测定曲匹布通的新方法。     

Differential pulse polarographic determination of trace selenium(IV) and molybdenum(VI) using the catalytic hydrogen wave

In the presence of selenium(IV) and molybdenum(VI) a new polarographic peak appears which corresponds to a hydrogen catalytic wave. By differential pulse polarography a single, sharp peak at about -1.1 V is obtained, allowing trace determination of selenium(IV) and molybdenum(VI) in the range 1x10(-6)-5.0x10(-9) M with a linear calibration and a detection limit of 1.5x10(-9) M. The optimum conditions are found to be 0.1 M KNO(3) and a pH of about 3.2 (Britton-Robinson buffer). There is no serious interference from some ions when present at 1.0-40 times that of molybdenum. At higher amounts of interfering ions the interference is eliminated by the addition of EDTA.     

钴(II)-丁二酮肟体系极谱催化波的机理研究

本文研究了钴(II)-丁二酮肟(DMG)在氨性底液(pH9)中极谱催化波的机理.用线性扫描伏安法,循环伏安法和阳极溶出法等方法证明,这催化波的形成是由于吸附在汞电极上的钴(II)-丁二酮肟螯合物不可逆地还原到零价的"活性钴",同时在电极表面的"活性钴"又催化了丁二酮肟的还原.     

Study on the polarographic catalytic wave of the system cobalt(II)-dimethylglyoxime

In the cobalt (II)-dimethylglyoxime-NH₃-NH₄Cl (pH 9) system, tne complex Co(II)A₂ exhibits a sensitive polarographic wave. The mechanism of this catalytic wave has been investigated by linear potential sweep voltammetry, cyclic voltammerty and anedic stripping voltammetry. The experimental evidences showed that a zero-valence “active cobalt” or its complex formed during the irreversible reduction of Co(II)A₂, which is adsorbed on the mercury electrode surface, and simultaneously DMG is catalytically reduced by this “active cobalt”. The mechanism of this system with the conflicting explanations of a catalytic hydrogen wave or only adsorptive complex wave is discussed.     

钴(II)-丁二酮肟-亚硝酸盐体系极谱催化波的机理研究

在氨性底液(PH8)中, 钴(II)-丁二酮肟(DMG)-亚硝酸盐体系产生高灵敏的极谱催化波. 利用吸附伏安法, 测定下限可达1×10^-^1^1mol.dm^-^3Co. 我们用多种电化学方法和紫外可见分光光度法证明, 吸附在汞电极表面的[NH4]2[Co(DMG)2(NO2)2]是有很高电活性的混配化合物, 在复杂的电还原过程中, 不仅Co(II)和DMG被催化还原, 而且NO2^-也被催化还原, 从而产生很大的催化电流, 本文再一次证明, “活性钴"在催化波的形成过程中起着重要的作用.     

镍(II)-丁二酮肟体系极谱催化波的机理研究

研究了镍(II)-丁二酮肟(DMG)体系极谱催化波的行为, 这一体系的极谱催化波可用于生物及岩矿中测定痕量镍和同时测定痕量镍、钴, 并对照研究了Co(II)-DMG体系和Ni(II)-DMG体系的机理.     

双烯醇酮乙酸酯的极谱催化波及应用研究

采用线性扫描极谱技术,研究了在H2O2存在下双烯醇酮乙酸酯的极谱催化波。结果表明,在pH 4.0±0.5的B-R缓冲溶液、8.0×10-3mol/L H2O2溶液和0.1 mol/L KCl底液中,双烯醇酮乙酸酯于-1.01 V处产生一极谱催化波;其一阶倒数峰电流与双烯醇酮乙酸酯的浓度在1.0×10-8~1.0×10-7mol/L范围内有良好的线性关系,iP′=1.384×1011c 2.374×104(nA/s),相关系数r=0.9991;讨论了极谱催化波的产生机理。     

雷酚内酯的极谱催化波研究

用线性扫描伏安法研究了雷酚内酯在不同缓冲体系及氧化剂作用下的极谱行为。实验表明 ,在含有 0 .1mol/LKCl、pH 4.3的HAc NaAc缓冲溶液、6.0× 1 0 - 3mol/LH2 O2 的体系中 ,雷酚内酯产生催化波 ,其一阶导数波的峰电位为- 1 .0 3V (vs.SCE) ,峰电流与其浓度在 3.2× 1 0 - 8～ 3.2× 1 0 - 7mol/L的范围内有良好的线性关系 (n =6,r=0 .9989)。探讨了电极反应机理     

过氧化氢存在下平行催化氢波法测定奥沙普秦

在0.2mol/LKH2PO4-Na2HPO4(pH5.5±0.1)支持电解质中,奥沙普秦产生一催化氢波,峰电位Ep=-1.25V(vs.SCE)。当1×10-2mol/LH2O2存在时,该催化氢波的峰电流增加12倍,峰电位基本不变,产生一较灵敏的平行催化氢波。其二阶导数峰峰电流ip″与奥沙普秦浓度在1.0×10-7~2.6×10-5mol/L范围内呈线性关系(r=0.9995,n=10),检出限为5.0×10-8mol/L。该方法可用于药物制剂中奥沙普秦含量的测定。     

A new type of polarographic catalytic wave of organic compound

The polamgraphic behavior and catalytic wave mechanism of medroprogestemne acetate (MPA) were studied in both aqueous and DMF media. In 0.2 mol/L acetic acid-sodium acetate (pH 5.0) buffer solution, the bond of MPA first undergoes le, lH⁺ reduction to form protonated free radical HMPA, the further reduction of HMPA in le,1H⁺ process is simultaneous with the dimerization reaction between HMPA and neutral molecular MPA. In DMF media containing 0.1 mol/L tetrabutylammonium tetrafluoborate (TBA.BF₄), the bond of MPA shows two le, 1H⁺reduction waves, which are ascribed to the reduction of MPA and free radical MPA.^-, respectively. Here, no dimerization reaction occurs. These processes produce the reduction wave of MPA. In the presence of oxidant KIO₃,a polamgraphic catalytic wave of MPA is observable due to a chemical reaction between HMPA. or MPA.^- and KIO₃ as well as its intermediate species to regenerate MPA. The catalytic wave, which is caused by the reduction of organic compound itself and the chemical reaction between oxidant and organic intermediate free radical to regenerate original organic compound, is a new-type wave of organic compound. Under optimum experimental conditions, the sensitivity of MPA catalytic wave in the presence of KIO₃ is an order of magnitude higher than that of its reduction wave. The catalytic wave can be used for analytical purpose. The calculated rate constant of catalytic reaction is 1.7 × 10³ mol·L^-1·s^-1. Project supported by the National Natural Science Foundation of China (Grant No. 29875017).     

Determination of nicotinamide (vitamin B3) in cosmetic products using differential spectrophotometry and liquid chromatography (HPLC)

Differential spectrophotometry and liquid chromatography (TLC, HPLC) were used to qualitative and quantitative determination of nicotinamide (vitamin B₃) in commercial cosmetics creams. The liquid-liquid extraction has been used as pretreatment processes for cosmetics samples prior to their analyses. Differential spectra were collected using a UV-Vis spectrophotometer with the range of 220–350 nm, in a 1-cm layer, with the speed of spectrum registering at 240 nm/min, the spectra width of the radiation leaving the monochromator of 1.00 nm and the increase in wavelength of 1 nm. The measuring methods of “peak-zero” and “peak-peak” were used. The reversed-phase determination of vitamin B₃ was conducted on a LiChrospher 100 RP-18 column (250 × 4 mm, 10 μm) at 260 nm, using a mixture of KH₂PO₄ (0.02 M)-methanol (9: 1) as a mobile phase (the flow rate — 1.5 mL/min). The UV method (D²) for the determination of vitamin B₃ in cosmetic products is accurate with the comparison of reference method of HPLC.     

超微量铂丶铑连续催化极谱测定及其催化波机理的探讨

For simultaneous determination of ultramicro amounts of platinum and rhodium the optimum condition has been described as 1.5N H2SO4-1.2% NH4Cl-0.0012M (CH2)6N4-0.003% N2H4XH2SO4. Both platinum and rhodium produce hydrogen catalytic waves with peak potential at-1.03 V and - 1.27 V (vs. S. C. E.) and the peak height of differential wave in single-sweep polarograph is directly proportional to the concentration of the metals in the range from 0.05 ppb to 1.0 ppb for platinum and from 0.0025 ppb to 0.1ppb for rhodium, respectively. The influence of other platinum group metals and some base metals on the height of catalytic waves has been examined. It has been shown that the method is very selective. It is applied even at 200:1 or at 1:10 (Pt:Rh). The mechanism of the catalytic waves has been discussed. The catalytic waves of both platinum and rhodium are due to "surface catalytic wave of hydrogen". The wave of rhodium can be attributed to catalytic discharge of hydrogen ion by the complex (Rh(CH2O)2Cl4)-. One of the ligands, formaldehyde, is the product of hydrolysis of hexamethylenetetramine. The wave of plainum can be attributed to catalytic discharge of hydrogen ion by the complex (PtACl5)-, where a denotes intermediate product (a substance containing CH2=N group) formed during the hydrolysis of hexamethylenetetramine. The role of hydrazine sulfate in catalytic system has been shown. Hydzazine can react with formaldehyde to from (CH2=N)2 which promotes the growth of platinum catalytic wave and in this way the concentration of formaldehyde in the system can be controlled.     

Differential pulse polarographic determination of trace levels of iron(III) by using the catalytic current

Trace of iron(III) are determined by differential pulse polarography in a medium of sodium hydroxide and sodium bromate using the catalytic current. Various cations do not interfere. The relative standard deviation is 2%.