研究多巴胺(DA)和抗坏血酸(AA)在聚伊文思蓝(Evans Blue)修饰电极上的伏安行为,建立差示脉冲伏安测定法.在pH4.5磷酸盐缓冲液中,聚伊文思蓝修饰电极对DA和AA有显著的增敏和电分离作用.DA和AA氧化峰电流与浓度分别在1.0×10-6~3.0×10-5mol/L和5.0×10-6~1.05×10-4mol/L范围内呈良好的线性关系,检测限分别为2.5×10-7mol/L和3.0×10-7mol/L.当DA与AA共存时,由该修饰电极检测的二者氧化峰电位差达184 mV,故可同时测定DA和AA,并有效消除其它组分对DA测定的干扰,已用于实际样品中DA和AA含量的测定,结果令人满意.
林丽清
,
林新华
,
姚宏
,
陈敬华
,
李光文
. 聚伊文思蓝修饰电极对多巴胺和抗坏血酸的电分离及同时测定[J]. 电化学, 2007
, 13(3)
: 329
-333
.
DOI: 10.61558/2993-074X.1832
Voltammetric behavior of the Dopamine(DA) and ascorbic acid(AA) at Poly-Evans Blue modified electrode were studied and a novel method for determination of the content of DA and AA is established.In pH 4.5 phosphate buffer solution,the modified electrode shows enhanced sensitivity and excellent electrochemical discrimination to DA and AA.The relationship between oxidation peak current and the concentration of DA or AA is linear in the range of 1.0 10-6 ~3.0×10-5mol/L and 5.0×10-6~1.05×10-4 mol/L,the detection limit has been estimated as 2.5(10-7 mol/L and 3.0 ×10-7 mol/ L,respectively.The oxidable potential difference of DA and AA was about 184 mV at Poly-Evans Blue modified electrode.So it is used to simultaneously determine the DA and AA without any interference.The interference of other components could be efficiently eliminated at the modified electrode,and this method can be used for determination of DA and AA in real sample with satisfactory results.
[1]Whitley R J,Meikle AW,Watts NB.Tietz textbook ofclinical chemistry[M].2nd Ed,Buurtis C A,AshwoodE R Edrs.Saunders:Philadelphia,1994.1793.
[2]WANG Huai-you(王怀友),SUN Yue(孙悦),TANGBo(唐波).Spectrophotometric determination of dopa-mine[J].Chin J Anal Lab,2003,22(01):45-47.
[3]WUXia(吴霞),TONG Shang-lun(童裳伦),SHUBen-yu(苏本玉),et al.Determination of dopamine by fluo-rimetry[J].Chin J Anal Chem,1999,27(9)1069-1071.
[4]YANG Na(杨娜),LI Jing(李静),ZHANG Lei(张雷).HPLC determination of dopamine hydrochloride indopamine hydrochloride and sodium chloride injection[J].Chin J Pharm Anal,2003,23(3):232-234.
[5]Zhang Y Z,Cai Y J,Su S.Determination of dopaminein the presence of ascorbic acid by poly(styrene sulfonicacid)sodium salt/single-wall carbon nanotube filmmodified glassy carbon electrode[J].Anal Biochem,2006,350(2):285-291.
[6]Vasantha V S,Chen S M.Electrocatalysis and simulta-neous detection of dopamine and ascorbic acid using po-ly(3,4-ethylenedioxy)thiophene film modified elec-trodes[J].2006,592(1):77-87.
[7]Wang Zhenhui(汪振辉),Jia Jianbo(郏建波),LiGongan(李工安),et al.Electrochemical behaviour ofdopamine on the polytheophylline/nafion dual-layermodified glassy carbon electrode[J].Chinese J AnalChem,2000,28(5):568-572.
[8]Bard A J,Faulkner L R.Electrochemical methods fun-damentals and applications[M].Beijing:Chemical In-dustry Press,2005.166.
