Nekane Reta scite author profile

The emergence of nanostructured materials has opened new horizons in the development of next generation biosensors. Being able to control the design of the electrode interface at the nanoscale combined with the intrinsic characteristics of the nanomaterials engenders novel biosensing platforms with improved capabilities. The purpose of this review is to provide a comprehensive and critical overview of the latest trends in emerging nanostructured electrochemical biosensors. A detailed description and discussion of recent approaches to construct label-free electrochemical nanostructured electrodes is given with special focus on pathogen detection for environmental monitoring and food safety. This includes the use of nanoscale materials such as nanotubes, nanowires, nanoparticles, and nanosheets as well as porous nanostructured materials including nanoporous anodic alumina, mesoporous silica, porous silicon, and polystyrene nanochannels. These platforms may pave the way toward the development of point-of-care portable electronic devices for applications ranging from environmental analysis to biomedical diagnostics.

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Enhanced adsorption of mercury ions on thiol derivatized single wall carbon nanotubes

Bandaru¹,

Reta²,

Dalal³

et al. 2013

Journal of Hazardous Materials

170

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Porous silicon membrane-modified electrodes for label-free voltammetric detection of MS2 bacteriophage

Reta¹,

Michelmore

Saint

et al. 2016

Biosensors and Bioelectronics

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Label-Free Bacterial Toxin Detection in Water Supplies Using Porous Silicon Nanochannel Sensors

et al. 2019

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Lipopolysaccharides (LPS) are the major component of the outer membrane of all Gram-negative bacteria and some cyanobacteria and are released during growth and cell death. LPS pose a potential health risk in water, causing acute respiratory illnesses, inhalation fever, and gastrointestinal disorders. The need for rapid and accurate detection of LPS has become a major priority to facilitate more timely and efficacious intervention and, hence, avoid unsafe water distribution. In this context, a porous silicon membrane (pSiM)-based electrochemical biosensor was developed for direct and sensitive detection of LPS. pSiM, featuring arrays of nanochannels, was modified with polymyxin B (PmB), an antimicrobial peptide with strong affinity to LPS. Detection of LPS was based on measuring the changes in the diffusion through the nanochannels of an electroactive species added in solution, caused by the nanochannel blockage upon LPS binding to PmB. Results showed a limit of detection of 1.8 ng/mL, and a linear response up to 10,000 ng/mL spiked in buffer. Selectivity of the sensor toward potential interfering species in water supplies was also assessed. Sensor performance was then evaluated in water samples from a water treatment plant (WTP), and detection of LPS well below the levels encountered in episodes of water contamination and in humidifiers was demonstrated. The same platform was also tested for bacterial detection including Pseudomonas aeruginosa and Escherichia coli spiked in water samples from a WTP. Considering its performance characteristics, this platform represents a promising screening tool to identify the presence of LPS in water supplies and provide early warning of contamination events.

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Nekane Reta

Nanostructured Electrochemical Biosensors for Label-Free Detection of Water- and Food-Borne Pathogens

Enhanced adsorption of mercury ions on thiol derivatized single wall carbon nanotubes

Porous silicon membrane-modified electrodes for label-free voltammetric detection of MS2 bacteriophage

Label-Free Bacterial Toxin Detection in Water Supplies Using Porous Silicon Nanochannel Sensors

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