Abstract

Carbon Nanotubes (CNT) in nanotechnology field are legendary for its strength and chemical inertness. Technically, we can alter carbon nanotubes based on our necessities and requirements such as single layered nanotube, double layered nanotube, multi layered nanotube etc. In this paper usage of carbon nanotubes in semiconductor devices such as nanomaterials, molecular dynamics of nanomaterials, heterojunctions using carbon nanotubes, diodes and Graphene Field Effect Transistor (GFET), its characteristics and data analysis are discussed. The major application of carbon nanotubes in electronic circuits is not limiting to improves the electrical and thermal conductivity due to its high stretchability feature and they also have a long life span and better durability over traditional electronic circuit’s materials.

Highlights

  • IntroductionPresent method used in manufacturing of electronic devices is called “top down” method (i.e. manufacturing nanoscale components and materials from larger chunks) researchers are developing a new approach based on self-assembly of atoms and molecules that is called “ bottom up ” approach

  • Introduction on CarbonNanotubes (CNT) and Its Applications in Electronic CircuitsManu Mitra The Institution of Electrical Engineers, USA AbstractCarbon Nanotubes (CNT) in nanotechnology field are legendary for its strength and chemical inertness

  • A simulation was performed on Carbon Nanotube Heterojunction (CNT HJ) at nano level

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Summary

Introduction

Present method used in manufacturing of electronic devices is called “top down” method (i.e. manufacturing nanoscale components and materials from larger chunks) researchers are developing a new approach based on self-assembly of atoms and molecules that is called “ bottom up ” approach. Top down method uses the creation of logically smaller structures to be made utilizing utilizes lithography and related methods for the development of electronic components and smaller scale electro mechanical frameworks. This method has encouraged effective data and innovation activities. DNA atoms, might be utilized to control the association of nanoparticles Nanoabricating includes scaled-up, solid, and savvy assembling of nanoscale materials, structures, devices, and frameworks. It incorporates research, advancement and various procedures and progressively complex base up or self-gathering forms[1,2].

Molecular Dynamics Nanomaterials
Diode through Carbon Nanotube
Applications and Advantages
Conclusion

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