About Micro and Nano Electronics

Micro and Nano Electronics encompass a wide range of advanced techniques for fabricating and studying artificial systems with dimensions ranging from a few micrometers to a few nanometers (one nanometer is one-billionth of a meter). Nano Electronics and microelectronics are interdisciplinary fields of study, and it is applied to electronics in this undergraduate course. As a result, the goal of Nanotechnology is to use the Bulk system to research the properties of Nano/small size systems. It teaches about Nano and Atomic data in electronics systems and how to use Nanotechnology to increase the efficiency of electronics like microprocessors.

What Is Micro and Nano Electronics?

Miniaturization has traditionally been the driving force behind technological advancement. Electronic devices approach the molecular scale; classical concepts of device behavior must be abandoned. This micro and Nano electronics course teaches students the theory of current, voltage, and resistance from atoms to prepare them for the next generation of electronic devices. The course will introduce quantum mechanics principles, such as quantization, wave-particle duality, wave functions, and Schrödinger's equation, to characterize electrons at the nanoscale. The electronic properties of molecules, carbon nanotubes, crystals, energy band creation, and the origin of metals, insulators, and semiconductors will be discussed next. Electron conduction will be taught, beginning with ballistic transport and ending with a derivation of Ohm's law. The course then compares ballistic MOSFETs to bulk MOSFETs. The course will come to a close by studying possible computational fundamental limits. Depending on the course outline offered by the individual institutions, micro and Nano electronics can cover a wide range of topics. Nanotechnology, Molecular Biology, Electronic systems such as analogue systems, and other disciplines in micro and Nano electronics are examples of core and elective studies. Engineers trained in Micro and Nano electronics have a strong foundation in traditional electronics and the specialized abilities at the electronics/physics interface needed to operate at the cutting edge of contemporary Nanoscale device production. Many specialized modules are introduced in the second year, allowing students to build on a common basis in electronics. Nanoscale electrical devices, optoelectronics, nanofabrication, and advanced experimental methodologies are all covered in these modules.

Eligibility and Career in Micro and Nano Electronics

Micro and Nano electronics course benefits people with strong arithmetic and computer programming skills. Any knowledge acquired through official, informal, or self-education will increase your potential and value. Graduates can work in Nano medicine, bioinformatics, stem cell research, pharmaceutical businesses, Nano toxicology, and Nano power generation. They can do everything from make cosmetics to improve energy-efficient windows, from car and plane manufacture to studying the nature of stuff. Degree holders are in high demand not only in R&D but also in the city, in technical sales, management, and government and public service. Candidates must have received a minimum of 45 percent in their 10+2 from a recognized institute to be eligible for admission to the micro and Nano electronics program. Candidates must have completed prerequisite courses in physics, chemistry, and mathematics and elective courses in chemistry, biotechnology, and biology. The candidates must have passed the NTA/JEE Mains entrance exam. Candidates should have a scientific mindset and significant research interests, and a strong analytical brain and computer programming skills to take this course.