Electrochemical Impedance Spectroscopy Study on Polymerization of <scp>l</scp>-Lysine on Electrode Surface and Its Application for Immobilization and Detection of Suspension Cells

Huang, Baozhen; Jia, Ningming; Chen, Lina; Tan, Liang; Yao, Shouzhuo

doi:10.1021/ac500753f

Cited by 28 publications

(14 citation statements)

References 33 publications

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“…Electrochemical impedance spectroscopy (EIS) has attracted growing interest in the last few years, not only because it is one of the most valuable tools for investigating the electrochemical interface, but also because it provides a promising platform for developing chemical sensors and biosensors. 1 – 6 When applying a perturbing sinusoidal voltage to the electrochemical system and recording the corresponding current responses as a function of frequency, many complex chemical and electrical processes could be described with equivalent circuits consisting of purely electrical terms. Therefore, EIS has been widely used in different applications ranging from the determination of double layer capacitance to monitoring zeolite formation, 7 studying the degradation of anticorrosion polymer coatings, 8 and examining the relationship between basic electrochemistry and actual battery performance.…”

Section: Introductionmentioning

confidence: 99%

Electrochemical impedance spectroscopy of single Au nanorods

Liu

Wang

et al. 2018

Chem. Sci.

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Section: Introductionmentioning

confidence: 99%

Electrochemical impedance spectroscopy of single Au nanorods

Liu

Wang

et al. 2018

Chem. Sci.

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“…Therefore, it can be concluded that the steric hindrance of the substituent affects the active site of radicals on the surface of the electrode during the amine oxidation process. The bonding reaction requires protons to be detached from the amine cation radical, so this reaction path is not feasible for tertiary amines [38]. Ethylenediamine is a typical aliphatic diamine, which exhibits characteristics of both primary and secondary amines.…”

Section: Resultsmentioning

confidence: 99%

Analysis of the Overlapped Electrochemical Signals of Hydrochlorothiazide and Pyridoxine on the Ethylenediamine-Modified Glassy Carbon Electrode by Use of Chemometrics Methods

Zhang¹,

Zhou

Chen

et al. 2019

Molecules

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In this work, the electrochemical behavior of hydrochlorothiazide and pyridoxine on the ethylenediamine-modified glassy carbon electrode were investigated by differential pulse voltammetry. In pH 3.4 Britton-Robinson (B-R) buffer solution, both hydrochlorothiazide and pyridoxine had a pair of sensitive irreversible oxidation peaks, that overlapped in the 1.10 V to 1.20 V potential range. Under the optimum experimental conditions, the peak current was linearly related to hydrochlorothiazide and pyridoxine in the concentration range of 0.10–2.0 μg/mL and 0.02–0.40 μg/mL, respectively. Chemometrics methods, including classical least squares (CLS), principal component regression (PCR) and partial least squares (PLS), were introduced to resolve the overlapped signals and determine the two components in mixtures, which avoided the troublesome steps of separation and purification. Finally, the simultaneous determination of the two components in commercial pharmaceuticals was performed with satisfactory results.

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“…The wide linear range of 2.0 × 10 2 −2.0 × 10 8 cells mL −1 (equivalent to 2.0 − 2.0 × 10 6 in 10 μL assay volume) and the low limit of detection (LOD) of 79 cells mL −1 (S/N = 3) were obtained. The LOD was lower than those values of most cytosensors reported so far, such as 794 HeLa cells mL −1 at aptamer-based impedance sensor 50 , 100 HeLa cells mL −1 at folic acid-based electrochemical cytosensor 51 , 90 HL-60 cells mL −1 at small-molecule ligand-based impedance sensor 52 , 620 BGC-823 cells mL −1 at enzyme-linked tetrapeptide-based sensor 53 and 1.8 × 10 4 Jurkat cells mL −1 at poly-lysine/GCE impedance sensor 54 ( Table S1 ). These results demonstrated that the covalent immobilization of specific phage led to highly efficient capture of tumor cells onto the electrode surface.…”

Section: Resultsmentioning

confidence: 99%

A Label-Free Electrochemical Impedance Cytosensor Based on Specific Peptide-Fused Phage Selected from Landscape Phage Library

Han

Liu

Petrenko

et al. 2016

Sci Rep

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One of the major challenges in the design of biosensors for cancer diagnosis is to introduce a low-cost and selective probe that can recognize cancer cells. In this paper, we combined the phage display technology and electrochemical impedance spectroscopy (EIS) to develop a label-free cytosensor for the detection of cancer cells, without complicated purification of recognition elements. Fabrication steps of the cytosensing interface were monitored by EIS. Due to the high specificity of the displayed octapeptides and avidity effect of their multicopy display on the phage scaffold, good biocompatibility of recombinant phage, the fibrous nanostructure of phage, and the inherent merits of EIS technology, the proposed cytosensor demonstrated a wide linear range (2.0 × 102 − 2.0 × 108 cells mL−1), a low limit of detection (79 cells mL−1, S/N = 3), high specificity, good inter-and intra-assay reproducibility and satisfactory storage stability. This novel cytosensor designing strategy will open a new prospect for rapid and label-free electrochemical platform for tumor diagnosis.

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Electrochemical Impedance Spectroscopy Study on Polymerization of l-Lysine on Electrode Surface and Its Application for Immobilization and Detection of Suspension Cells

Cited by 28 publications

References 33 publications

Electrochemical impedance spectroscopy of single Au nanorods

Electrochemical impedance spectroscopy of single Au nanorods

Analysis of the Overlapped Electrochemical Signals of Hydrochlorothiazide and Pyridoxine on the Ethylenediamine-Modified Glassy Carbon Electrode by Use of Chemometrics Methods

A Label-Free Electrochemical Impedance Cytosensor Based on Specific Peptide-Fused Phage Selected from Landscape Phage Library

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