Synthesis and photoelectrical properties of β-Cyclodextrin functionalized graphene materials with high bio-recognition capability

Xu C.; Wang X.; Wang J.; Hu H.; Wan L.

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Synthesis and photoelectrical properties of β-Cyclodextrin functionalized graphene materials with high bio-recognition capability

机译：具有高生物识别能力的β-环糊精官能化石墨烯材料的合成及光电性能

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β-Cyclodextrin (β-CD) functionalized graphene materials were synthesized by nucleophilic addition reaction between hydroxypropyl-β- Cyclodextrin (HPCD) and thionyl chloride modified graphene oxides (GO). The photoinduced electron-transfer between tetra-phenyl-porphyrin (TPP) and HPCD modified graphene materials were studied through fluorescence absorption spectroscopy, and obvious quenching was observed after adding HPCD-graphene to the DMF solution of TPP. However, the fluorescence intensity of TPP in the DMF solution was hardly changed in the presence of HPCD-GO. Cyclic voltammetry measurement (CV) was used to investigate the electrochemical interactions between hemoglobin (Hb) and TPP. The HPCD-GO/TPP modified electrode showed 5.0 × 10~(-9) M of the detection limit to Hb, indicating high bio-recognition capability.

机译：通过羟丙基-β-环糊精（HPCD）与亚硫酰氯改性的氧化石墨烯（GO）之间的亲核加成反应合成了β-环糊精（β-CD）功能化的石墨烯材料。通过荧光吸收光谱研究了四苯基卟啉（TPP）和HPCD改性石墨烯材料之间的光诱导电子转移，在TPP的DMF溶液中加入HPCD石墨烯后，观察到明显的猝灭。然而，在存在HPCD-GO的情况下，DMF溶液中TPP的荧光强度几乎不变。循环伏安法（CV）用于研究血红蛋白（Hb）与TPP之间的电化学相互作用。 HPCD-GO / TPP修饰电极对Hb的检测极限为5.0×10〜（-9）M，表明具有较高的生物识别能力。

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《Chemical Physics Letters 》 |2010年第3期| 共6页
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Xu C.; Wang X.; Wang J.; Hu H.; Wan L.;
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Synthesis and photoelectrical properties of β-Cyclodextrin functionalized graphene materials with high bio-recognition capability

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