Silicon nanostructures and Carbon Nanotubes based Nanoelectronics
Nanoelectronics, Silicon Nanostructures, Carbon Nanotubes, Fabrication Techniques, Semiconductor Technology, Sensors, Energy Devices, Experiential Learning, Industry Insights, Innovation.
Online/ e-LMS
Self Paced
Moderate
3 months
Program Aim
The program aims to provide participants with a deep understanding of nanoelectronics principles, fabrication techniques, and applications using silicon nanostructures and carbon nanotubes. Participants will gain insights into the transformative potential of these advanced materials in electronic devices and systems. By acquiring the necessary knowledge and skills for designing, fabricating, and characterizing nanoelectronic devices, participants will be well-prepared for careers in nanotechnology research and development. Ultimately, the course aims to drive innovation in nanoelectronics by empowering participants to harness the capabilities of silicon nanostructures and carbon nanotubes for future electronic applications.
About Program
Our program offers a comprehensive exploration of cutting-edge nanoelectronics technologies, with a focus on silicon nanostructures and carbon nanotubes. Through hands-on lab sessions and practical demonstrations, participants gain experience in synthesizing, characterizing, and designing nanoelectronic devices. Industry insights from experts provide valuable perspectives on current trends and opportunities. Graduates are prepared for careers at the forefront of nanoelectronics innovation, equipped with both theoretical knowledge and practical skills.
Program Objectives
- Understand the principles of nanoelectronics and their applications in electronic devices.
- Explore the properties and characteristics of silicon nanostructures and carbon nanotubes.
- Learn fabrication techniques for producing nanostructures and nanotubes.
- Gain proficiency in designing nanoelectronic devices using silicon and carbon-based materials.
- Understand the theoretical concepts behind nanoelectronic device operation.
- Develop skills in characterizing nanoelectronic devices and analyzing their performance.
- Investigate applications of nanoelectronics in sensors, semiconductors, and energy devices.
- Explore emerging trends and advancements in nanoelectronics research.
- Collaborate with peers in hands-on lab sessions to apply theoretical knowledge.
- Prepare for future careers in nanotechnology research, development, and innovation.
Program Structure
Module 1: Semiconductor Nanostructures & Nanomaterials
- Semiconductor Nanostructures & Nanomaterials: Introduction
- Importance of Semiconductor Nanomaterials in Electronic Industry
- Various Silicon Nanostructures
1. Silicon Nanowires
2. Silicon Quantum Dots
3. Silicon Nanotubes
4. Hybrid Silicon-Carbon Nanotubes
5. Silicon Carbide Nanotubes
Module 2 : Carbon Nanotubes Nanoelectronics
- Carbon Nanotubes : Introduction
- Synthesis of Carbon Nanotubes
- Properties of Carbon Nanotubes
- Specific Applications in Electronics
1. Carbon Nanotube based Field Emission Devices
2. Carbon Nanotube Transistors
3. Single Electron Transistor
4. Ballistic Carbon Nanotube Field Effect Transistor with Palladium Contact
5. Overview of Carbon Nanotube Field Effect Transistor Technology
Module 3 : Notable Achievements in Nanoelectronics
- Single-Molecule Electronics: Molecular electronics, Molecular logic gate, Molecular wires
- Solid State Nanoelectronics: Nanocircuitry, Nanolithography, Nanosensors
- Silicon Nanotechnology : CMOS Nanotechnology, Ballistic Properties, Memory
- Nano Emissive Display Devices
- Quantum Dots
- Nano Chips
- Nano Electro Mechanical System (NEMS)
Program Eligibility
Graduates, Post Graduates, Research Scholars, Academicians, Industry Professionals of Electrical Engineers, Physics and Materials Science, Electronics and Semiconductor
Program Outcomes
- Understand nanoelectronics principles with silicon nanostructures and carbon nanotubes.
- Fabricate nanoelectronic devices using silicon and carbon-based materials.
- Master characterization techniques for analyzing device properties.
- Design tailored nanoelectronic devices for specific applications.
- Analyze experiment results accurately.
- Troubleshoot and optimize device performance effectively.
- Stay updated on nanoelectronics research.
- Collaborate effectively on projects.
- Communicate technical concepts clearly.
- Adhere to safety protocols with nanomaterials and devices.
Fee Structure
INR. 5300
USD. 350
