Brabu Balusamy scite author profile

The worldwide increase in the number of people suffering from diabetes has been the driving force for the development of glucose sensors. The recent past has devised various approaches to formulate glucose sensors using various nanostructure materials. This review presents a combined survey of these various approaches, with emphasis on the current progress in the use of electrospun nanofibers and their composites. Outstanding characteristics of electrospun nanofibers, including high surface area, porosity, flexibility, cost effectiveness, and portable nature, make them a good choice for sensor applications. Particularly, their nature of possessing a high surface area makes them the right fit for large immobilization sites, resulting in increased interaction with analytes. Thus, these electrospun nanofiber-based glucose sensors present a number of advantages, including increased life time, which is greatly needed for practical applications. Taking all these facts into consideration, we have highlighted the latest significant developments in the field of glucose sensors across diverse approaches.

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Nanograined surface shell wall controlled ZnO–ZnS core–shell nanofibers and their shell wall thickness dependent visible photocatalytic properties

Ranjith

Anitha

Balusamy

et al. 2017

Catal. Sci. Technol.

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Progress in the design and development of “fast-dissolving” electrospun nanofibers based drug delivery systems - A systematic review

Balusamy

Çelebioğlu

Anitha

et al. 2020

Journal of Controlled Release

114

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Brabu Balusamy

Optical, bactericidal and water repellent properties of electrospun nano-composite membranes of cellulose acetate and ZnO

Glucose sensors based on electrospun nanofibers: a review

Nanograined surface shell wall controlled ZnO–ZnS core–shell nanofibers and their shell wall thickness dependent visible photocatalytic properties

Progress in the design and development of “fast-dissolving” electrospun nanofibers based drug delivery systems - A systematic review

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