Direct Electrochemistry and Electrocatalysis of Heme Proteins Entrapped in Agarose Hydrogel Films in Room-Temperature Ionic Liquids

Wang, Sheng Fu; Chen, Ting; Zhang, Zhi Ling; Shen, Xin; Lu, Zhe Xue; Pang, Dai Wen; Wong, Kwok Yin

doi:10.1021/la050947k

Cited by 353 publications

(182 citation statements)

References 45 publications

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“…7). In other words, it appears a correlation between reversibility and concentration which has already been reported by other authors 37,55,57 . According to the literature, this behavior can be due to the affinity shown by cyt c to the surface of metal oxide electrodes 58 .…”

Section: Preparation Of Electrodessupporting

confidence: 82%

Modulation of the Silica Sol–Gel Composition for the Promotion of Direct Electron Transfer to Encapsulated Cytochrome c

et al. 2014

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The direct electron transfer between indium-tin oxide electrodes (ITO) and cytochrome c encapsulated in different sol-gel silica networks was studied. Cyt c@silica modified electrodes were synthesized by a two-step encapsulation method mixing a phosphate buffer solution with dissolved cytochrome c and a silica sol prepared by the alcohol free sol-gel route. These modified electrodes were characterized by cyclic voltammetry, UV-visible spectroscopy and in situ UV-visible spectroelectrochemistry.The electrochemical response of encapsulated protein is influenced by the terminal groups of the silica pores. Cyt c does not present electrochemical response in conventional silica (hydroxyl terminated) or phenyl terminated silica. Direct electron transfer to encapsulated cytochrome c and ITO electrodes only takes place when the protein is encapsulated in methyl modified silica networks.

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Section: Preparation Of Electrodessupporting

confidence: 82%

Modulation of the Silica Sol–Gel Composition for the Promotion of Direct Electron Transfer to Encapsulated Cytochrome c

et al. 2014

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“…The voltammetric studies were taken using a pretreated GCE as working electrode with an area of approximately 0.057 cm 2 , a platinum wire as auxiliary electrode, and an aqueous saturated calomel electrode (SCE) as reference electrode. The pretreatment of bare GCE was in the same way as described in our previous paper [21]. The controlled potential coulometric measurements were performed using a large electric glass as the working electrode.…”

Section: Apparatus and Proceduresmentioning

confidence: 99%

Voltammetric Behavior of Bilirubin Based on [bmim][PF6] As the Supporting Electrolyte in Organic Solvent and Its Analytical Application

Ye¹,

Xiong²,

Wang³

et al. 2011

Am. J. Biomed. Sci.

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The electrochemical oxidation behaviors of bilirubin (BR) at the bare glassy carbon electrode (GCE) were studied in dimethyl formamide (DMF) containing 1 vol.% of 1-butyl-3-methylimidazolium hexafluorophosphate ([bmim][PF 6 ]) as the supporting electrolyte. Some electrochemical parameters of BR oxidation were investigated by cyclic voltammetry and chronocoulometry. The oxidation products were identified by the spectrophotometric technique. The basic BR showed good linear relationship in the range of 2.6×10 -5 to 2.5×10 -4 M, and the neutral BR presented two linear relationships in the range of 5.4×10 -4 to 1.1×10 -3 and 1.1×10 -3 to 1.6×10 -3 M. The mechanisms for the successive electro-oxidation of BR in different forms were proposed.

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“…30 The surface coverage (G*) of Hb on the surface at the Hb-chi/nanoCaCO 3 -chi/ CILE was estimated to be 1.43 × 10 -9 mol·cm -2 by integration of the reduction peak currents of Hb on the CVs in 0.1 mol/L pH 7.0 PBS, which was much larger than that of monolayer coverage (1.89 × 10 -11 mol·cm -2 for Hb). 31 However, the fraction of electroactive proteins among the total proteins deposited at the CILE was of 9.6%. This was always relatively low because only those proteins in the inner layers of the film close to the electrode and with a suitable orientation can exchange electrons with the electrode surface.…”

Section: Direct Electrochemistry Of Hbmentioning

confidence: 98%

Electrodeposition CaCO₃ Nanoparticles‐chitosan Composite Film on Carbon Ionic Liquid Electrode as a Platform for Hemoglobin Electrochemical Biosensor

Zhao

Zheng

Sheng

2011

J Chinese Chemical Soc

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By one-step co-electrodeposition CaCO 3 nanoparticles-chitosan composite film on carbon ionic liquid electrode (CILE), and then by spreading the composition of hemoglobin (Hb) and chitosan on the nanoCaCO 3 -chi/CILE, a Hb-chi/nanoCaCO 3 -chi/CILE was fabricated and the direct electrochemistry and electrocatalysis of Hb at the electrode was investigated. The electrochemical impedance spectroscopy of the modified electrode showed the electron transfer resistance was 1166 W. Investigation results of cyclic voltammetrys showed a pair of well-defined and quasireversible redox peak of Hb with the formal potentials of -0.295 V (vs. SCE) in 0.1 mol·L -1 pH 7.0 PBS; the response time of the reduction peak currents of Hb was lower than 3s; a linear range for determination of H 2 O 2 was from 5.0 mmol·L -1 to 1.3 mmol·L -1 with a detection limit of 1.6 mmol·L -1 (S/N = 3) and a sensitivity of 0.16 A·M -1 ·cm -2 ; the electron transfer rate constant and the apparent Michaelis-Menten constant of Hb were 1.98 s -1 and 0.81 mmol·L -1 , respectively. As a result, the case of the one-step co-electrodeposition and the promising feature of biocomposite could serve as a versatile platform for the fabrication of electrochemical biosensors.

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Direct Electrochemistry and Electrocatalysis of Heme Proteins Entrapped in Agarose Hydrogel Films in Room-Temperature Ionic Liquids

Cited by 353 publications

References 45 publications

Modulation of the Silica Sol–Gel Composition for the Promotion of Direct Electron Transfer to Encapsulated Cytochrome c

Modulation of the Silica Sol–Gel Composition for the Promotion of Direct Electron Transfer to Encapsulated Cytochrome c

Voltammetric Behavior of Bilirubin Based on [bmim][PF6] As the Supporting Electrolyte in Organic Solvent and Its Analytical Application

Electrodeposition CaCO₃ Nanoparticles‐chitosan Composite Film on Carbon Ionic Liquid Electrode as a Platform for Hemoglobin Electrochemical Biosensor

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Direct Electrochemistry and Electrocatalysis of Heme Proteins Entrapped in Agarose Hydrogel Films in Room-Temperature Ionic Liquids

Cited by 353 publications

References 45 publications

Modulation of the Silica Sol–Gel Composition for the Promotion of Direct Electron Transfer to Encapsulated Cytochrome c

Modulation of the Silica Sol–Gel Composition for the Promotion of Direct Electron Transfer to Encapsulated Cytochrome c

Voltammetric Behavior of Bilirubin Based on [bmim][PF6] As the Supporting Electrolyte in Organic Solvent and Its Analytical Application

Electrodeposition CaCO3 Nanoparticles‐chitosan Composite Film on Carbon Ionic Liquid Electrode as a Platform for Hemoglobin Electrochemical Biosensor

Contact Info

Product

Resources

About

Electrodeposition CaCO₃ Nanoparticles‐chitosan Composite Film on Carbon Ionic Liquid Electrode as a Platform for Hemoglobin Electrochemical Biosensor