Innovations and Applications in Nanosensor Technologies: A Brief Review
| Authors | K. Mutluer, M.A. Akkaş, F. Demiray |
| Affiliations |
Bolu Abant Izzet Baysal University, Faculty of Engineering, Department of Computer Eng., 14280 Bolu, Türkiye |
| Е-mail | kaan.mutluer@icloud.com |
| Issue | Volume 17, Year 2025, Number 2 |
| Dates | Received 01 December 2024; revised manuscript received 20 April 2025; published online 28 April 2025 |
| Citation | K. Mutluer, M.A. Akkaş, F. Demiray, J. Nano- Electron. Phys. 17 No 2, 02001 (2025) |
| DOI | https://doi.org/10.21272/jnep.17(2).02001 |
| PACS Number(s) | 61.46. + w, 61.48. + c, 81.05.ue |
| Keywords | Nanotechnology (6) , Nanosensor, Nanomaterials (4) . |
| Annotation |
Nanotechnology represents a field of science that enables the control of matter at the atomic and molecular level. Nanotechnology has made it possible to produce new devices and systems that can be used for various applications by examining the properties and behaviors of materials at the nanometer scale, thus creating new opportunities in many fields. In this article; the historical development of nanotechnology, its basic concepts and nanosensors as a sub-branch are discussed. Nanosensors are devices made of nanometer-scale materials that can detect various biological, physical or chemical parameters and transform them into electrical, optical or mechanical signals. In this article, the properties and application areas of carbon-based nanosensors are examined. Carbon-based nanosensors consist of carbon allotropes including carbon nano-tubes, graphene, fullerene and nanodiamond. These materials have exceptional properties including mechanical strength, high electrical conductivity and chemical stability that used in many fields such as environment, health and energy. In this article, the properties, applications and developments in carbon-based nanosensors and nanomaterials are discussed. |
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List of References |
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