Silicon Nanostructures and Carbon Nanotubes based Nano electronics

The aim of the program “Silicon Nanostructures and Carbon Nanotubes based Nano-electronics” is to explore and develop cutting-edge technologies that leverage the unique properties of silicon nanostructures and carbon nanotubes to revolutionize the field of nano-electronics. Through interdisciplinary research and practical applications, the program seeks to advance the design, fabrication, and integration of novel electronic devices and circuits at the nano-scale, with the ultimate goal of achieving enhanced performance, reduced power consumption, and increased functionality for future electronic systems.

• Understand the physical and chemical properties of silicon nanostructures and carbon nanotubes.
• Explore methods for synthesizing and manipulating these nanostructures for electronic applications.
• Design and simulate nano-electronic devices using state-of-the-art software tools.
• Analyze the performance of devices built with nanostructured materials.

• Physics Majors: Foundational knowledge in semiconductor physics recommended.
• Chemistry Majors: Basic understanding of chemical properties of materials.
• Engineering Majors: Prior experience in electronics or materials engineering.

• Mastery of nano-materials for electronic applications.
• Ability to design cutting-edge nano-electronic devices.
• Advanced skills in simulation and device performance analysis.
• In-depth knowledge of current and emerging nano-electronic technologies.
• Experience in practical applications and innovations in nano-electronics.
• Preparedness for leadership roles in nanotechnology and electronics industries.