Browsing by Author "Srivastava S."

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    H 2 O 2 sensing through electrochemically deposited thionine coated ITO thin film
    (Cellular and Molecular Biology Association, 2017) Singh P.; Srivastava S.; Singh S.K.
    Progression and initiation of different diseases including pulmonary diseases, alzheimer's and tumors are linked with the oxidative stress, an important cause of cell damage. Different antioxidant enzymes are involved in detoxifying reactive oxygen species including hydrogen peroxide (H 2 O 2 ) that is generated in response to various stimuli and has important role in cell activation & bio-signaling processes. Herein, we developed hydrogen peroxide electrochemical sensor based on horseradish peroxidase (HRP) entrapped polymerized thionine (PTH) film. Electrochemical deposition of thionine (dye) on indium tin oxide (ITO) surface was carried out through chornoamperometry followed by cyclic voltammetry. Deposited thionine thin film obtained was checked for its stability at different scan rates. The PTH-modified electrodes showed linear dependence of peak current with scan rate within the range of 20 to 100 mV s -1 . Thionine used as electron transfer mediator between heme site of HRP and electrode. Cyclic voltammetry showed increase in the reduction peak current due to electrocatalytic reduction of H 2 O 2 . The sensor detection limit range from 10 -1 -10 2 ?M and limit of detection was 0.1?M. The proposed sensor has good storage response, cost effective, high sensitivity and wide linear range that could be used for the fabrication of other enzyme based biosensors.
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    Nanosilica: Recent Progress in Synthesis, Functionalization, Biocompatibility, and Biomedical Applications
    (American Chemical Society, 2019) Singh P.; Srivastava S.; Singh S.K.
    Silica nanoparticles (Si-NPs) are widely explored in biomedical applications due to their high surface area, excellent biocompatibility, and tunable pore size. The silica surface can be readily functionalized for wide range of applications such as cellular imaging, biosensing, and targeted drug delivery. This comprehensive review discusses different synthesis methodologies of Si-NPs and their surface functionalization with various functional groups. Nanosilica functionalization methods are discussed in detail, emphasizing their suitability for targeted drug delivery, cancer therapy, bioimaging, and biosensing. The toxicity assessment of nanosilica is also critically reviewed to get a clear focus before employing them for nanomedicine.