Electrochemical Pretreatment of Amino-Carbon Nanotubes on Graphene Support as a Novel Platform for Bilirubin Oxidase with Improved Bioelectrocatalytic Activity towards Oxygen Reduction

Navaee Aso; Salimi Abdollah; Jafari Fereydoon

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Electrochemical Pretreatment of Amino-Carbon Nanotubes on Graphene Support as a Novel Platform for Bilirubin Oxidase with Improved Bioelectrocatalytic Activity towards Oxygen Reduction

机译：石墨烯载体上氨基碳纳米管的电化学预处理，作为胆红素氧化酶的新型平台，具有改善的生物电催化活性，可降低氧的氧化

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The electrochemical conditioning of aminocarbon nanotubes (CNTs) on a graphene support in an alkaline solution is used to produce -NHOH as hydrophilic functional groups for the efficient immobilization of bilirubin oxidase enzyme. The application of the immobilized enzyme for the direct electrocatalytic reduction of O-2 is investigated. The onset potential of 0.81 V versus NHE and peak current density of 2.3 mAcm(-2) for rotating modified electrode at 1250 rpm, indicate improved biocatalytic activity of the proposed system for O-2 reduction.

机译：在碱性溶液中对石墨烯载体上的氨基碳纳米管（CNT）进行电化学调节，可产生-NHOH作为亲水性官能团，以有效固定胆红素氧化酶。研究了固定化酶在直接电催化还原O-2中的应用。相对于NHE，0.81 V的起始电势和2.3 mAcm（-2）的峰值电流密度，用于在1250 rpm下旋转的修饰电极，表明该体系用于O-2还原的生物催化活性得到改善。

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《Chemistry: A European journal 》 |2015年第13期| 共5页
作者
Navaee Aso; Salimi Abdollah; Jafari Fereydoon;
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amino-carbon nanotubes; bilirubin oxidase; electrochemical conditioning; enzyme immobilization; graphene;

机译：氨基碳纳米管胆红素氧化酶电化学条件酶固定化石墨烯;

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1. Electrochemical Pretreatment of Amino-Carbon Nanotubes on Graphene Support as a Novel Platform for Bilirubin Oxidase with Improved Bioelectrocatalytic Activity towards Oxygen Reduction [J] . Navaee Aso, Salimi Abdollah, Jafari Fereydoon Chemistry: A European journal . 2015 ,第13期

机译：石墨烯载体上氨基碳纳米管的电化学预处理，作为胆红素氧化酶的新型平台，具有改善的生物电催化活性，可降低氧的氧化
2. Graphene-supported pyrene-functionalized amino-carbon nanotube: a novel hybrid architecture of laccase immobilization as effective bioelectrocatalyst for oxygen reduction reaction [J] . Navaee Aso, Salimi Abdollah Journal of Materials Chemistry, A. Materials for energy and sustainability . 2015 ,第14期

机译：石墨烯支持的functional官能化的氨基碳纳米管：漆酶固定化的新型杂化结构，可作为有效的生物催化剂进行氧还原反应
3. Bioelectrocatalytic Oxygen Reduction Reaction by Bilirubin Oxidase Adsorbed on Glassy Carbon and Edge-Plane Pyrolytic Graphite Electrodes: Effect of Redox Mediators [J] . De-an Li, Takeyoshi Okajima, Lanqun Mao, International Journal of Electrochemical Science . 2014 ,第3期

机译：胆红素氧化酶吸附在玻碳和边缘平面热解石墨电极上的生物电催化氧还原反应：氧化还原介体的影响。
4. Pt-decorated Graphene-like Foam for Electrochemical Oxygen Reduction with High Mass Activity [C] . Jianfeng Liu, Kazunari Sasaki, Stephen Matthew Lyth Polymer Electrolyte Fuel Cells Symposium;Meeting of The Electrochemical Society . 2013

机译：具有高质量活性的Pt装饰石墨烯样泡沫用于电化学还原氧气
5. Electrochemically Reduced Graphene Oxide to Support Glucose Oxidase Electrocatalysis [D] . Quinones Weiss, Graciela Ines. 2017

机译：电化学还原石墨烯氧化物以支持葡萄糖氧化酶电催化
6. Electrochemical Sensor for Bilirubin Detection Using Screen Printed Electrodes Functionalized with Carbon Nanotubes and Graphene [O] . Madasamy Thangamuthu, Willimann Eric Gabriel, Christian Santschi, 2018

机译：使用碳纳米管和石墨烯功能化的丝网印刷电极检测胆红素的电化学传感器
7. Electrochemical Quartz Crystal Microbalance Study of Direct Bioelectrocatalytic Reduction of Bilirubin Oxidase [O] . Yuji KAMITAKA, Seiya TSUJIMURA, Tokuji IKEDA, 2006

机译：胆红素氧化酶直接生物电催化还原的电化学石英晶晶晶体微稳态研究

Electrochemical Pretreatment of Amino-Carbon Nanotubes on Graphene Support as a Novel Platform for Bilirubin Oxidase with Improved Bioelectrocatalytic Activity towards Oxygen Reduction

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