传感技术学报
傳感技術學報
전감기술학보
Journal of Transduction Technology
2013年
6期
762-768
,共7页
姚飞%贾丽萍%霍瑞伟%侯关伟%李娟%王怀生
姚飛%賈麗萍%霍瑞偉%侯關偉%李娟%王懷生
요비%가려평%곽서위%후관위%리연%왕부생
无酶传感器%H2 O2%导电聚合物%复合材料修饰电极
無酶傳感器%H2 O2%導電聚閤物%複閤材料脩飾電極
무매전감기%H2 O2%도전취합물%복합재료수식전겁
nonenzymatic sensor%hydrogen peroxide%conducting polymers%composite material modified electrode
在室温水相中,通过电化学方法在玻碳电极上先聚合了聚(3,4-乙烯基二氧噻吩)(PEDOT),然后又电沉积了双链DNA(ds-DNA)和银纳米粒子(Nano-Ag),制备了Nano-Ag/ds-DNA/PEDOT复合膜修饰玻碳电极(GCE)。对该复合膜进行了表征,并研究了该复合膜修饰电极的电化学行为以及对过氧化氢( H2 O2)的电催化还原。结果显示,施加工作电位为-0.3 V时,修饰电极对H2 O2有着很好的电催化还原能力,达到稳态电流的响应时间小于5 s。因此,该修饰电极可作为无酶传感器用于对H2 O2的快速检测。传感器的催化还原电流与H2 O2浓度在10μmol/L~16 mmol/L范围内呈现良好的线性关系,检出限为2.36μmol/L(S/N=3)。
在室溫水相中,通過電化學方法在玻碳電極上先聚閤瞭聚(3,4-乙烯基二氧噻吩)(PEDOT),然後又電沉積瞭雙鏈DNA(ds-DNA)和銀納米粒子(Nano-Ag),製備瞭Nano-Ag/ds-DNA/PEDOT複閤膜脩飾玻碳電極(GCE)。對該複閤膜進行瞭錶徵,併研究瞭該複閤膜脩飾電極的電化學行為以及對過氧化氫( H2 O2)的電催化還原。結果顯示,施加工作電位為-0.3 V時,脩飾電極對H2 O2有著很好的電催化還原能力,達到穩態電流的響應時間小于5 s。因此,該脩飾電極可作為無酶傳感器用于對H2 O2的快速檢測。傳感器的催化還原電流與H2 O2濃度在10μmol/L~16 mmol/L範圍內呈現良好的線性關繫,檢齣限為2.36μmol/L(S/N=3)。
재실온수상중,통과전화학방법재파탄전겁상선취합료취(3,4-을희기이양새분)(PEDOT),연후우전침적료쌍련DNA(ds-DNA)화은납미입자(Nano-Ag),제비료Nano-Ag/ds-DNA/PEDOT복합막수식파탄전겁(GCE)。대해복합막진행료표정,병연구료해복합막수식전겁적전화학행위이급대과양화경( H2 O2)적전최화환원。결과현시,시가공작전위위-0.3 V시,수식전겁대H2 O2유착흔호적전최화환원능력,체도은태전류적향응시간소우5 s。인차,해수식전겁가작위무매전감기용우대H2 O2적쾌속검측。전감기적최화환원전류여H2 O2농도재10μmol/L~16 mmol/L범위내정현량호적선성관계,검출한위2.36μmol/L(S/N=3)。
A novel nanocomposite film modified glassy carbon electrode( GCE) was prepared by successively electro-chemical polymerization of poly(3,4-ethylenedioxythiophene)(PEDOT),electrodeposition of double strand DNA ( ds-DNA) and Ag nanoparticles ( nano-Ag ) on the electrode surface in aqueous phase. The nanocomposite film ( nano-Ag/ds-DNA/PEDOT) was characterized and the electrochemical behavior of the nanocomposite film modified electrode was investigated. The electrocatalytic effect to the reduction of H2 O2 of the composite film was also studied. The result suggested that,at an applied potential of -0. 3 V,this composite modified electrode displayed high elec-trocatalytic ability towards the reduction of H2 O2 and shows a fast amperometric response time of less than 5 s,which can be used as a nonenzymatic biosensor for H2 O2 detection. The reduction currents of the biosensor was linear with the H2O2concentration from 10 μmol/L to 16 mmol/L,and the detection limit was 2. 36 μmol/L(S/N=3).
