Microelectronics a subsection of electronics deals with the manufacture or microfabrication of very small electrical components.

They are made from semiconductor materials and include in their designs most of the components found in normal electrical designs.

These components include transistors, resistors, diodes, conductors, inductors and a lot more.

The goal of the microelectronic engineer is to find ways of minimizing wear and tear while delivering much smaller, faster and cheaper devices to the consumers.

Applications Of Microelectronics


Microelectronics in unionism with Nano-scale technology has found applications in various sectors of human endeavour. The most notable include:

  • Computers and consumer electronics
  • Computer-aided designs for industrial applications (CAD)
  • Computer-aided manufacturing (CAM) and robotics
  • Microprocessor control systems like the numerically controlled machine tools (NCMTs) for engineering.

Progress And Development Of Microelectronics In Nano-Scale

Innovation nowadays seems to be centered around information and communication systems, first of them all is microelectronics

New progress and rapid development of science have shown great potential for a number of applications and commercialization opportunities. This has enabled the proper development of tools to analyze matter, mechanical movement and structures on a small scale with atomic resolutions.

Some of the new tools deployed to look into components on a smaller scale involve designing, modeling, engineering, computer simulations, characterization and manufacturing at an appropriately small scale. Scientists are now able to re-invent the wheel and develop new technologies just by realizing advanced materials via the assembly and manipulation of atoms and molecules in the Nano-scale.

Innovation nowadays seems to be centered around information and communication systems, first of them all is microelectronics. There is no disputing the fact that electronics has been a key driver of the scientific and technological processes that has made major contributions to the social and economic growth of mankind since the mid-20th century.

Major areas microelectronics have played important roles in humanity include but not limited to:

  • Mobile phones and telecommunication systems
  • Multimedia applications and digital media systems
  • Computing and networking (the internet as a whole)
  • Cleaner production processes for factories
  • Safer vehicles and better performing medical systems

In fact, the input of microelectronics to the development and civilization of the human race cannot be overemphasized.

Harnessing The Benefits Of Microelectronics And Nanotechnology

There are presently lots of efforts in place to harness the benefits of nanotechnology.

There are presently lots of efforts in place to harness the benefits of nanotechnology. Both nanotechnology and microelectronics have opened up areas of new research and development, something that would have been unthinkable to achieve many years ago. We are in an era of light speed development and research; yesterday’s breakthrough might become obsolete tomorrow.

However, a lot still needs to be done to transform the outcome of the numerous research on microelectronics and nanotechnology into meaningful job opportunities, economic growth, and a better quality of life.

Still, commercialization of microelectronics and MEMS devices are still hindered, largely because of the complexity of dealing with such materials at such a small scale. Developing micro applications to replace or reinvent those existing is a possibility but they are quite expensive.  A simple look at the cost of developing solar panel cells for electricity generation will give you an idea of how expensive this process is.

Having analyzed the economic importance of microelectronics and nanotechnology, there seems to be a well-defined path for future growth on a larger scale. There is a larger pie to be shared in the future, but in all sincerity, it shouldn’t be for financial gain only.  A global system of approach needs to be utilized rather than an individualistic or state system. Tackling matters this way would ensure that synergies between players are harnessed for knowledge and development.

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While microelectronics continues to pave the wave for nanotechnology, corporate organizations and financial institutions should embark on meaningful technologies with economic value rather than creating technology for technology’s sake.

Care must also be taken into consideration to communicate and promote to the public the usefulness and benefits of a nanotechnology-based approach, otherwise we risk stalling the progress of the miniaturization field.

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