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- From Bulk Devices to Atomic Devices
- Frequently asked questions
- How NEGF Enables us to Make a NanoDevice (Overview)
- External Resources
- The Power of NEGF (What We Can Simulate)
Step by Step Guide to Design Nano Devices and Sensors
Quick Facts
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Medium of instructions
English
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Mode of learning
Self study
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Mode of Delivery
Video and Text Based
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Course overview
Nanodevices and nanosensors are technologies that require one or more nanoscale components to work and have at least one overall measurement in the nanometer. The Step by Step Guide to Design Nano Devices and Sensors online certification was developed by Milad Zoghi, Master Engineer of Nanotechnology and CEO of Right Vision, and is available through Udemy, which is intended to assist learners who want to learn quantum transport theory and create a systematic simulator for research activities.
Step by Step Guide to Design Nano Devices and Sensors online training provides more than 3.5 hours of in-depth lectures, 2 articles, and 3 downloadable resources that are all geared at assisting learners in developing the knowledge and abilities necessary to design nano-scale systems, such as atomically small devices and sensors. Step by Step Guide to Design Nano Devices and Sensors online classes cover NEGF, transmission probability, and I-V characteristics, as well as teach the learners how to build systematic simulators that would let them compute the transport characteristics and current-voltage of GNRs and CNTs in any aspect.
The highlights
- Certificate of completion
- Self-paced course
- 3.5 hours of pre-recorded video content
- 2 articles
- 3 downloadable resources
Program offerings
- Online course
- Learning resources
- 30-day money-back guarantee
- Unlimited access
- Accessible on mobile devices and tv
Course and certificate fees
Fees information
₹ 549 ₹2,299
certificate availability
Yes
certificate providing authority
Udemy
Who it is for
What you will learn
Knowledge of matlab
Knowledge of nano technology
After completing the Step by Step Guide to Design Nano Devices and Sensors certification course, learners will gain a better understanding of the principles of nanotechnology to develop simulators for nanosensors and nanodevices using Matlab. Learners will explore the methodologies involved with various forms of nanostructures as well as will acquire the knowledge of the function of the non-equilibrium green. Learners will study concepts like transmission probability, I-V characteristics, example code, and systematic simulators. . Learners will also acquire the skills to work with models and structures like armchair graphene nanoribbon and carbon nanoribbon nanotubes.
The syllabus
Introduction to NanoDevice Simulation
Building NEGF Simulator for Armchair Graphene Nanoribbon
- Make Atomic Site for 4-AGNR / Part 1
- Make Atomic Site for 4-AGNR / Part 2
- Form Hamiltonian Matrix for 4-AGNR / Part 1
- Form Hamiltonian Matrix for 4-AGNR / Part 2
- How to Calculate Self-Energies, Green Function and Transmission / Part 1
- How to Calculate Self-Energies, Green Function and Transmission / Part 2
Calculate I-V and Make Systematic Devices for AGNRs and ZCNTs
- Calculate I_V Characteristic of 4-AGNR
- Armchair Graphene Nanoribbon Device Simulator (For any Dimension)
- Zigzag Carbon Nanotube Device Simulator (For any Dimension)
Make your first Nano Device - AGNR RTD
- Armchair Graphene Nanoribbon Resonant Tunneling Diode / Part 1
- Armchair Graphene Nanoribbon Resonant Tunneling Diode / Part 2
Instructors
Articles
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