Kazi Kutubuddin Sayyad Liyakat | International journal of Nanobiotechnology | Vol 12, Issue 1 | ISSN: 2456-0111
Abstract
Imagining a world in which prosthetics have the ability to feel, robots are able to detect even the faintest touch, and wearable health monitors are able to track your well-being in a seamless manner. Electronic skin, often known as e-skin, is a revolutionary technology that is set to alter the way in which we interact with the world. This vision has become a reality thanks to their development. What is the driving force behind this innovation? Those nanomaterials. The idea of developing electronic skin, also known as e-skin, which is a material that is very sensitive, flexible, and elastic and that mimics the characteristics of human skin, is quickly becoming a reality. Nanomaterials are an essential component that lays at the core of this technological breakthrough. The field of electronic skin is undergoing a revolution as a result of nanomaterials, which are making it possible to create devices that are biocompatible, flexible, and sensitive. The development of e-skins that can be used for a wide variety of purposes is being driven by the distinctive characteristics that they possess, which include a high surface area, increased conductivity, and qualities that can be customised. Nanomaterials will surely play an even more significant part in realising the full capabilities of this transformative technology, which will bridge the gap between electronics and the human body. This is because research will continue to improve, and nanomaterials will play an ever more important role. This work establishes a scalable, biocompatible framework for nextgeneration wearable biomedical devices that can bridge the gap between continuous health monitoring and personalized therapeutic intervention.
Keywords: Nanomaterial, e-skin, Electronic skin, Biomedical, Physiological Sensing,
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How to cite this article
@article{LiyakatKKS2026,
author = {Kazi Kutubuddin Sayyad Liyakat},
title = {An Overview on Nanomaterial-Enabled Electronic Skin for Physiological Sensing and Biomedical Use},
journal = {International journal of Nanobiotechnology},
year = {2026},
volume = {12},
number = {1},
issn = {2456-0111},
url = {https://journalspub.com/publication/uncategorized/article=25280}
}