Abstract: It is incredible to imagine the usefulness of biomedical science in the field of electronics. DNA electronics, which is one of the most attractive applications of bionanotechnology is making its way in nanotechnology like a wild uncontrollable fire. DNA is regarded as a sturdy tool in the application of electrical transport with the support of semiconductor devices. With the aid of electronic properties exhibited by semiconductors, electron transfer exhibited by both N and P types semiconductors through donating and accepting electrons result to electrical transport that enables the production of electronic devices from nanomolecules. The process leads to nanoelectronics that are discussed in this paper. On the other hand, DNA molecules also showcase electronic coupling, which is identical to semiconductors. This paper examines DNA electronics with the light of current innovative research in bionanotechnology. Different DNA electronic applications are highlighted in addition to some of the products and devices that are bi-products DNA of electronics. The paper demonstrates the effectualness of DNA in bionanotechnology and its assimilation in electronic engineering. The article expatiates on the usefulness of DNA as a resourceful tool for the production of electronic devices.
Keywords: Bionanotechnology, Nanotechnology, Nanodevices, Nanomaterials, Electron Transfer, DNA Electronics, Electronic Engineering.
Title: A Systematic Scrutiny of Electronic Products from DNA Electronics: An Application to Nanotechnology
Author: K. S. Nwizege, F.O. Philip-Kpae, G. I. Ikhazuangbe, L.D. Petaba, N.A. Zukbee, J. Danamina
International Journal of Engineering Research and Reviews
ISSN 2348-697X (Online)
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