Urvasini Singh scite author profile

Looking to the toxicity quotient of lithium for human well being, a simple electrochemical sensor based on self assembled monolayer with physically adsorbed 6,6’‐dibenzyl‐14‐crown‐4 ether onto a screen printed gold sensor electrode is proposed, where changein voltammetric current signal of redox probe as a mediator, is the basis of transducer. The sensor is responsive to 0.1 mM to 2.5 mM lithium and selective over potassium, calcium and large excess of sodium in solution. The system is promising for real‐time selective recognition of lithium in a label free assay and for point‐of‐care lithium level monitoring in clinical and biomedical fields.

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Surface plasmon resonance based indirect immunoassay for detection of 17β-estradiol

Kumbhat

Gehlot

Sharma

et al. 2019

Journal of Pharmaceutical and Biomedical Analysis

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Nafion‐modified Carbon Based Sensor for Soil Potassium Detection

2019

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In the present investigation, we report a voltammetric sensor based on Nafion modified screen printed carbon ink functionalized with 4‐aminobenzo‐18‐crown‐6 ether for the detection of soil potassium. The potassium is one of the major nutrient elements required by the plants and is critical for the crop productivity. The selective and sensitive assay is based on recording change in current signal of a positively charged redox probe, hexammineruthenium(III)chloride in the absence and presence of K+ ion in solution. The sensing interface is highly stable and reproducible for detection of K+ ion a under a wide range of concentration 1 to 500 ppm. The detection sensitivity over a wide concentration range was achieved by altering the concentration of redox species. Mechanistically, the recognition properties of 4‐aminobenzo‐18‐Crown‐6 covalently bound to the Nafion on carbon surface was found to be selective for potassium ion over sodium, ammonium and calcium ion. Potassium recognition through host‐guest binding of crown ether derivative and proposed simplicity of fabrication protocol makes the systems highly promising for real‐time applications in soil analysis.

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Absorbance Based Model for Determination of Biochemical Oxygen Demand

Singh

Sharma

Bhandari

et al. 2014

BJAST

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Urvasini Singh

A potassium-selective electrochemical sensor based on crown-ether functionalized self assembled monolayer

Ready to Use Electrochemical Sensor Strip for Point‐of‐Care Monitoring of Serum Lithium

Surface plasmon resonance based indirect immunoassay for detection of 17β-estradiol

Nafion‐modified Carbon Based Sensor for Soil Potassium Detection

Absorbance Based Model for Determination of Biochemical Oxygen Demand

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