Swathi Satish scite author profile

The arena of biomedical science has long been in quest of innovative mediums for diagnostic and therapeutic applications. The latest being the use of nanomaterials for such applications, thereby giving rise to the branch of nanomedicine. Halloysite nanotubes (HNTs) are naturally occurring tubular clay nanomaterials, made of aluminosilicate kaolin sheets rolled several times. The aluminol and siloxane groups on the surface of HNT facilitate the formation of hydrogen bonding with the biomaterials onto its surface. These properties render HNT pivotal in diverse range of applications, such as in environmental sciences, waste-water treatment, dye removal, nanoelectronics and fabrication of nanocomposites, catalytic studies, as glass coatings or anticorrosive coatings, in cosmetics, as flame retardants, stimuli response, and forensic sciences. The specific properties of HNT also lead to numerous applications in biomedicine and nanomedicine, namely drug delivery, gene delivery, tissue engineering, cancer and stem cells isolation, and bioimaging. In this review, recent developments in the use of HNT for various nanomedicinal applications have been discussed.

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Risk assessment of selected pharmaceuticals on wildlife with nanomaterials based aptasensors

Satish

Dey

Tharmavaram

et al. 2022

Science of The Total Environment

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Flame retardancy of nanocomposites with emphasis on Halloysite nanotubes

Rawtani

Satish

Rao

2023

Journal of Industrial and Engineering Chemistry

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Aptasensors in environmental forensics: Tracking the silent killers

Dube

Satish

Rawtani

2023

WIREs Forensic Science

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Since its inception, environmental forensics has observed expansion of its horizons across several threats to life forms, be it pertaining to wildlife trafficking or tracking the release of effluents containing pharmaceutical drugs, toxins, pesticides, heavy metals, pathogenic microbes, and microplastics. With the substantial growth of pharmaceutical industry over the past few decades, especially with respect to therapeutic personal care products and over the counter drugs, a new threat to environment has emerged from pharmaceutical toxicity.Due to the recalcitrant nature and poor wastewater treatment practices related to these pollutants, they leach into different strata of ecosystem like aquatic, terrestrial, and atmospheric systems. These drugs pose a threat to several life forms even at trace concentrations. This article aims at providing a profound perspective by exhaustively reviewing several classes of pharmaceutical drugs that are silently threatening the wildlife and environment. The sensitive, specific, and rapid detection of such drugs menacing the environment and wildlife is pertinent and can be achieved through aptamer-based biosensors known as aptasensors. These are a rising class of biosensors with vast application potential in numerous fields including environmental and wildlife forensics. This article also highlights the gap in research in the availability of rapid sensors for trace detection of drugs in environment hence encouraging researchers to explore the under-explored potential of aptasensors in environmental forensics. Highly sensitive and selective detection of such drugs is crucial in narrowing down the origin of such pollutants so as to aid the regulatory authorities in enforcing control over their release into environment.

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Future Aspects of Modern Forensic Tools and Devices

Satish

Phadke

Rawtani

2023

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Swathi Satish

Halloysite nanotubes as a nature’s boon for biomedical applications

Risk assessment of selected pharmaceuticals on wildlife with nanomaterials based aptasensors

Flame retardancy of nanocomposites with emphasis on Halloysite nanotubes

Aptasensors in environmental forensics: Tracking the silent killers

Future Aspects of Modern Forensic Tools and Devices

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