Effect of diluent chain length on the performance of the electrochemical DNA sensor at elevated temperature

Yang, Weiwei; Lai, Rebecca Y.

doi:10.1039/c0an00644k

Cited by 23 publications

(35 citation statements)

References 40 publications

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“…• achieved a lower LOD (for tap water samples) than other reported methods such as AuNP-based immunosensors (Hejazi et al, 2008) or fluorescence-based assay using CdSe quantum dots (Yang and Lai, 2011) Optical (Chen et al, 2014) Analyte: detection of HEV RNA Sample pretreatment:…”

Section: Technique Authors Key Featuresmentioning

confidence: 99%

Advances in nanomaterials and their applications in point of care (POC) devices for the diagnosis of infectious diseases

Tram

Wang

Sugiarto

et al. 2016

Biotechnology Advances

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Nanotechnology has gained much attention over the last decades, as it offers unique opportunities for the advancement of the next generation of sensing tools. Point-of-care (POC) devices for the selective detection of biomolecules using engineered nanoparticles have become a main research thrust in the diagnostic field. This review presents an overview on how the POC-associated nanotechnology, currently applied for the identification of nucleic acids, proteins and antibodies, might be further exploited for the detection of infectious pathogens: although still premature, future integrations of nanoparticles with biological markers that target specific microorganisms will enable timely therapeutic intervention against life-threatening infectious diseases.

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Section: Technique Authors Key Featuresmentioning

confidence: 99%

Advances in nanomaterials and their applications in point of care (POC) devices for the diagnosis of infectious diseases

Tram

Wang

Sugiarto

et al. 2016

Biotechnology Advances

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“…5 Similar to most surfacebased biosensors, the ''click''-based E-DNA sensor performance is highly dependent on the total probe coverage and more importantly, the distribution of the probes on the sensor surface. [6][7][8] We thus believe sensor performance can be greatly enhanced by simply adjusting the probe coverage and spatial distribution-which are governed by the surface concentration and distribution of the active azide moieties on the SAM surface.…”

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confidence: 99%

Application of synchrotron FTIR microspectroscopy for determination of spatial distribution of methylene blue conjugated onto a SAM via“click” chemistry

et al. 2011

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“…This trend is often seen with the linear probe electrochemical DNA (E-DNA) sensor and can be explained using a previously developed theory. [37][38][39][40][41][42][43] In brief, as the applied frequency approaches a critical value (i.e., "threshold" frequency) above which electron transfer can no longer keep pace with the rapidly oscillating potential, the peak current diminishes relative to the background current. 29,42,43 The AC frequency-dependent profiles suggest that the peptide probes assume a somewhat linear and unstructured conformation.…”

Section: Sensor Designmentioning

confidence: 99%

Comparison of Mannose, Ethylene Glycol, and Methoxy-Terminated Diluents on Specificity and Selectivity of Electrochemical Peptide-Based Sensors

et al. 2015

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We report the synthesis and application of three new antifouling diluents for the fabrication of an E-PB HIV sensor. Among the three thiolated antifouling diluents used in this study, the methoxy-terminated diluent (C6-MEG) is the most effective in alleviating both nonspecific binding and adsorption of matrix contaminants onto the sensor surface, especially when compared to the mannose- (C6-MAN) and ethylene-glycol-terminated (C6-EG) diluents. The sensor fabricated with C6-MEG has a specificity factor (∼13.5) substantially higher than the sensor passivated with only 6-mercapto-1-hexanol (∼1.5). It is functional even when employed directly in 25% serum, an achievement that has not been observed with this class of E-PB sensors. More importantly, incorporation of these antifouling diluents has negligible impact on other important sensor properties such as sensitivity and binding kinetics. This sensor passivation strategy is versatile and can potentially be used with other E-PB sensors, as well as surface-based sensors that utilize thiol-gold self-assembled monolayer chemistry.

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Effect of diluent chain length on the performance of the electrochemical DNA sensor at elevated temperature

Cited by 23 publications

References 40 publications

Advances in nanomaterials and their applications in point of care (POC) devices for the diagnosis of infectious diseases

Advances in nanomaterials and their applications in point of care (POC) devices for the diagnosis of infectious diseases

Application of synchrotron FTIR microspectroscopy for determination of spatial distribution of methylene blue conjugated onto a SAM via“click” chemistry

Comparison of Mannose, Ethylene Glycol, and Methoxy-Terminated Diluents on Specificity and Selectivity of Electrochemical Peptide-Based Sensors

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