C. Radhakumary scite author profile

Colloidal gold is extensively used for molecular sensing because of the flexibilities it offers in terms of modification of the gold nanoparticle surface with a variety of functional groups using thiol chemistry. We describe a simple assay that allows the visual detection of glucose in aqueous samples and demonstrates its applicability by estimating glucose in urine. To enable the glucose detection, we functionalized the thiol capped gold nanoparticles with glucose oxidase, the enzyme specific to β-D glucose, using carbodiimide chemistry. The visible color change of the GOD-functionalized gold nanoparticles from red to blue on interaction with glucose is the principle applied here for the sensing of urine glucose level. The solution turns blue when the glucose concentration exceeds 100 μg/mL. The approach depicted here seems to be important, particularly in third world countries where high tech diagnostics aids are inaccessible to the bulk of the population.

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Drug loaded thermoresponsive and cytocompatible chitosan based hydrogel as a potential wound dressing

Radhakumary

Antonty

Sreenivasan

2011

Carbohydrate Polymers

151

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Functionalized carbon dots enable simultaneous bone crack detection and drug deposition

et al. 2014

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Recently, carbon dots (CDs) have become one of the most sought nanomaterials for biological applications owing to their excellent fluorescence, chemical inertness and biocompatibility. This article depicts the generation of a fluorescent nano probe using CDs for viewing bone cracks and simultaneous drug delivery to the cracked or infected sites. Water soluble polyethylene glycol diamine capped CDs were conjugated with glutamic acid (GA), a calcium targeting ligand, and ciprofloxacin as an antibacterial model drug. Physicochemical characterizations, cytotoxicity evaluation, haemolysis and antibacterial activity studies of the synthesized probe and its ability to target onto bone are demonstrated. Our results indicate that there is significant scope in developing functionalized CDs as theranostic agents.

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In vitro detection of calcium in bone by modified carbon dots

Krishna

Radhakumary

Sreenivasan

2013

Analyst

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This article depicts a simple and novel approach to locate calcium deposits in bone using modified carbon dots (CDs) through fluorescence imaging. Amino-functionalized CDs along with glutamic acid, a naturally-occurring ligand for calcium ions, were conjugated onto hyaluronic acid using EDC chemistry. The ability of the probe to recognise Ca ions was demonstrated using polymer strips doped with Ca ions and freshly collected bones. The probe was found to bind more at bone cracks, reflecting its potential to locate micro-cracks in bone as well as to map Ca deposits. The bound portions can be visualized through a fluorescence microscope or by illumination by a UV source (365 nm). The components used to generate the probes, namely CD, glutamic acid and hyaluronic acid, are well known for their non-toxicity and biocompatibility. It appears, therefore, that the probe could be used for in vivo applications.

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Gold nanoparticles generated through “green route” bind Hg2+ with a concomitant blue shift in plasmon absorption peak

Radhakumary

Sreenivasan

2011

Analyst

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We discuss here a quick, simple, economic and ecofriendly method through a completely green route for the selective detection of Hg(2+) in aqueous samples. Here we exploited the ability of chitosan to generate gold nanoparticles and subsequently to act as a stabilizer for the formed nanoparticles. When chitosan stabilized gold nanoparticles (CH-Au NPs) are interacted with Hg(2+) a blue shift for its localized surface plasmon resonance absorbance (LSPR) band is observed. The blue shift is reasoned to be due to the formation of a thin layer of mercury over gold. A concentration as low as 0.01 ppm to a maximum of 100 ppm Hg(2+) can be detected based on this blue shift of the CH-Au NPs. While all other reported methods demand complex reaction steps and costly chemicals, the method we reported here is a simple, rapid and selective approach for the detection of Hg(2+). Our results also show that the CH-Au NPs have excellent selectivity to Hg(2+) over common cations namely, Pb(2+), Cd(2+), Mn(2+), Fe(2+), Ag(1+), Ce(4+), Ni(2+), and Cu(2+).

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C. Radhakumary

Naked Eye Detection of Glucose in Urine Using Glucose Oxidase Immobilized Gold Nanoparticles

Drug loaded thermoresponsive and cytocompatible chitosan based hydrogel as a potential wound dressing

Functionalized carbon dots enable simultaneous bone crack detection and drug deposition

In vitro detection of calcium in bone by modified carbon dots

Gold nanoparticles generated through “green route” bind Hg2+ with a concomitant blue shift in plasmon absorption peak

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