1
Institute of Intelligent Industrial Technologies and Systems for Advanced Manufacturing (STIIMA), National Research Council of Italy, 70125, Bari, Italy
2
Electronic Devices Laboratory, Department of Electrical and Information Engineering, Polytechnic University of Bari, 70126, Bari, Italy
Abstract
In this review we first examine the main issues of nanotechnology. In particular, in the broad scenario of nanoscale devices, we present a detailed study of Carbon Nanotubes (CNTs), which arouse a growing interest for their unique properties and their versatility. We study and characterize the electronic properties of carbon nanotubes through the determination of the relationship between structure and electronic characteristics of CNTs.
A. G. Perri: Fondamenti di Dispositivi Elettronici, Progedit Editor, Bari, Italy; ISBN: 978-88-6194-080-2, (2017).
A. G. Perri: Dispositivi Elettronici Avanzati, Progedit Editor, Bari, Italy; ISBN: 978-88-6194-081-9, (2018).
G. Moore, Cramming more components onto integrated circuits, Electronics, 38 (1965).
R. Marani, A. G. Perri, Il futuro della tecnologia: le nanotecnologie, LA COMUNICAZIONE: NOTE, RECENSIONI & NOTIZIE, Istituto Superiore delle Comunicazioni e delle Tecnologie dell’Informazione, Rome, LVI (2009) 169-178.
R. Marani, A. G. Perri, Modelling and Design of Photonic Bandgap Devices: a Microwave Accelerating Cavity for Cancer Hadrontherapy, chapter IXX of international book Microwave and Millimeter Wave Technologies: from Photonic Bandgap Devices to Antennas and Applications, IN-TECH Online, http://www.intechweb.org, ISBN 978-953-7619-66-4, (2010) 431-450.
R. Marani, A. G. Perri, A Model Based on the Bloch-Floquet Theory for a Full Characterization and Design Optimization of 1-D Photonic Band Gap Waveguide Devices, Proceedings of 15th IEEE Mediterranean Electrotechnical Conference (MELECON 2010), Valletta, Malta, (2010).
R. Marani, A. G. Perri, A Model of Photonic Band-Gap Structures to DWDM Filter Design, chapter IV of international book Modelling and Simulations in Electronic and Optoelectronic Engineering, Research Signpost, Kerata, India, ISBN 978-81-308-0450-7, (2011) 79-112.
R. Marani, A. G. Perri: Design Rules of Photonic Bandgap Devices, LA COMUNICAZIONE: NOTE, RECENSIONI & NOTIZIE, Istituto Superiore delle Comunicazioni e delle Tecnologie dell’Informazione, Roma, LIX (2012) 141-152.
R. Marani, A. G. Perri, Design of a Microwave Accelerating Cavity for Cancer Hadrontherapy, chapter VII of international book, Advanced Research in Electronics for Biomedical Applications, Research Signpost, Kerata, India, ISBN 978-81-308-0514-6, (2013) 79-97.
R. Marani, G. Gelao, A. G. Perri, A Review on Memristor Applications, International Journal of Advances in Engineering & Technology (IJAET), 8(3) (2015) 294-305.
A. G. Perri, R. Marani, CNTFET Electronics: Design Principles, Progedit Editor, Bari, Italy; ISBN: 978-88-6194-307-0, (2017).
Marani,R and Perri,A G . (2024). Study of Electronic Properties of Carbon Nanotubes: A Review. Caspian Journal of Engineering Modern Technologies, 1(1), 45-61.
MLA
Marani,R , and Perri,A G . "Study of Electronic Properties of Carbon Nanotubes: A Review", Caspian Journal of Engineering Modern Technologies, 1, 1, 2024, 45-61.
HARVARD
Marani R, Perri A G. (2024). 'Study of Electronic Properties of Carbon Nanotubes: A Review', Caspian Journal of Engineering Modern Technologies, 1(1), pp. 45-61.
CHICAGO
R Marani and A G Perri, "Study of Electronic Properties of Carbon Nanotubes: A Review," Caspian Journal of Engineering Modern Technologies, 1 1 (2024): 45-61,
VANCOUVER
Marani R, Perri A G. Study of Electronic Properties of Carbon Nanotubes: A Review. CJEMT. 2024;1(1):45-61.
