Prussian Blue based screen printed biosensors with improved characteristics of long-term lifetime and pH stability

Ricci, Francesco; Amine, Aziz; Palleschi, Giuseppe; Moscone, Danila

doi:10.1016/s0956-5663(02)00169-0

Cited by 329 publications

(169 citation statements)

References 39 publications

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“…The SPEs were pre-treated in TPi + KCl, by applying an anodic potential of 1.7 V for 180 s. They were then stored dry at room temperature (RT) in the dark prior to use (Ricci, Amine, Palleschi, & Moscone, 2003).…”

Section: Electrode Pretreatmentmentioning

confidence: 99%

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Real time monitoring of alcoholic fermentation with low-cost amperometric biosensors

et al. 2011

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a b s t r a c tScreen-printed glucose, ethanol and fructose biosensors, coupled with portable instrumentation, and their application to monitor micro-alcoholic fermentations (micro-ALFs) in red wine is described. For the fabrication of glucose and ethanol biosensors, graphite screen-printed sensors modified with Prussian Blue were coupled with oxidase enzymes while for the fructose biosensor, a bare screen-printed sensor was coated with fructose dehydrogenase and phenazine methansulphate was used as electrochemical mediator. The working range, reproducibility of probe fabrication and biosensor stability were all evaluated. After a recovery study, performed analysing fortified must-wine samples, the biosensors were employed to monitor micro-ALFs induced by the inoculation of two different strains of Saccharomyces cerevisiae. During the red micro-ALFs, samples of must-wine were collected and analysed by use of both biosensors and spectrophotometric kits. The data obtained demonstrated that a biosensor-based system could represent a useful tool to assist winemakers during wine production.

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Section: Electrode Pretreatmentmentioning

confidence: 99%

“…According to the procedure of Ricci et al (2003), PB modifica- tion was left on the electrode surface for 10 min and then rinsed with a few milliliters of 10 mM HCl. The electrodes were then left 90 min in the oven at 100°C to obtain a more stable and active layer of PB.…”

Section: Preparation Of Pb-modified Spesmentioning

confidence: 99%

Real time monitoring of alcoholic fermentation with low-cost amperometric biosensors

et al. 2011

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“…A strip of eight screen-printed electrodes was connected to the potentiostat by an 8-channel multiplexer. Before use, ScPEs were pre-treated in 0.01 M PBS buffer pH 7.4 by applying an anodic potential of 1.7 V for 180 s (a procedure which improves the sensitivity and reproducibility of these electrodes (Ricci et al, 2003)) and kept dried in the dark until ready to use (Ricci et al, 2003).…”

Section: Electrodesmentioning

confidence: 99%

Development of a recombinant Fab-fragment based electrochemical immunosensor for deoxynivalenol detection in food samples

Romanazzo

Ricci

Volpe

et al. 2010

Biosensors and Bioelectronics

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a b s t r a c tA reliable and cost-effective electrochemical method for the detection of deoxynivalenol (DON) in cereals and cereal-based food samples based on the use of a novel anti-DON Fab fragment is presented. The analytical system employed, Enzyme-Linked-Immunomagnetic-Electrochemical (ELIME) assay, is based on the use of immunomagnetic beads (IMBs) coupled with eight magnetized screen-printed electrodes (8-mScPEs) as electrochemical transducers.Using standard solutions of DON, a working range between 100 and 4500 ng/ml was obtained with an EC 50 of 380 ng/ml. The ELIME assay was employed to evaluate the cross-reactivity of the Fab fragment towards different trichothecenes revealing a good selectivity towards DON over other trichothecenes with the exception of 3-Ac-DON. The sensor was then applied to cereals and cereal-based food samples (wheat, breakfast cereal and baby-food) and a wide range of sample treatment procedures was tested. Within-laboratory precision (9-24% repeatability for breakfast cereals and 10-33% for baby-food) and recovery data (82-110% for breakfast cereals and 97-108% for baby-food) were calculated by analyzing blank breakfast cereals and baby-foods fortified with DON, demonstrating that the proposed method has the capability for use as a screening assay for DON in such products.

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“…[15][16][17][18]27,28] The modification of an electrode surface with a layer of PB makes in fact it possible to measure H 2 O 2 at low applied potential (around 0.0 V) and to greatly decrease any electrochemical interference, as demonstrated in a previous article. [19] In this work, we report for the first time the modification of single walled carbon nanotube powder with Prussian Blue and the successive assembling of composite electrode for H 2 O 2 detection. The electrochemical behavior of these probes has been fully characterized by cyclic voltammetry in terms of surface charge, peak currents, formal potential, and ÁEp.…”

Section: Introductionmentioning

confidence: 98%

Prussian Blue Modified Carbon Nanotube Paste Electrodes: A Comparative Study and a Biochemical Application

et al. 2003

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Prussian Blue modification of Single Walled Carbon Nanotubes and the successive assembling of paste electrodes is presented in this article for the first time. The electrochemical feature of such electrodes have been fully evaluated with CV and amperometric experiments. Prussian Blue Nanotube Paste electrodes showed a high sensitivity towards hydrogen peroxide with a LOD of 7.4 Â 10 À6 M. They also proved to possess a strong stability even at basic pHs (i.e., pH 9 and 10) demonstrating no significant loss of signal after three days of continuous work. In addition, the loading in the paste mixture of glucose oxidase has brought to a sensitive tool for the detection of glucose in a range between 0.1 and 50 mM.

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Prussian Blue based screen printed biosensors with improved characteristics of long-term lifetime and pH stability

Cited by 329 publications

References 39 publications

Real time monitoring of alcoholic fermentation with low-cost amperometric biosensors

Real time monitoring of alcoholic fermentation with low-cost amperometric biosensors

Development of a recombinant Fab-fragment based electrochemical immunosensor for deoxynivalenol detection in food samples

Prussian Blue Modified Carbon Nanotube Paste Electrodes: A Comparative Study and a Biochemical Application

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