May 6, 2021, 6:20:01 PM Business

The scale of a nanometer is difficult to comprehend. A is one-billionth of a meter, or 1/80,000th of the diameter of a human hair, a million times smaller than the length of an insect, or the amount of hair that grows on a man's beard in the time it takes him to raise a razor to his face.

Yet, since matter behaves differently at that level, nanotechnology—the ability to manipulate matter at the nanoscale (roughly 1 to 100 nanometers)—is having a major effect on science, engineering, and technology.

Nanotechnology is concerned with a wide range of materials and products that depend on changes in physical properties due to their small scale. The automotive industry, which absorbs a lot of material technology, is showing a lot of interest in this.

Nanotechnology's effect on society has been compared to the inventions of electricity and plastic. It has the potential to change almost all we use today. Nanotechnology has a wide variety of uses, from better golf clubs and stain-resistant pants to potential dreams of industrial transformation and cancer treatment.

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Some of the common products where nanotechnology is already used are:

  • Furniture
  • Sunscreen
  • Clothing
  • Coating for car painting
  • Adhesives
  • Computers and electronic devices
  • Tennis balls

Application of Nanotechnology in the automotive Industry: Driving opportunities with speed

What if you could walk into a car dealership, purchase a tiny, colorful packet of seeds, and leave them to sprout outside your home? Imagine developing nanoparticles instead of seeds to create your dream car—one molecule, one particle at a time. Sounds like something out of a science fiction movie, doesn't it? However, thanks to nanotechnology, this may soon be a possibility.

Nanotechnology has penetrated almost every industry today, from biotechnology to industrial production. Nanotechnology is also being investigated by the automotive industry to create vehicles that are shinier, safer, and more energy-efficient.

Improved engine performance and fuel consumption were made possible by wear-resistant tires, car bodies made of lighter but stronger nanomaterials, and improved miniaturized electronic systems. The main emphasis is on reducing weight to increase fuel economy. Recent advancements in this field include replacing glass windows with polymers and using durable, rust-proof, nano-engineered thermoplastic materials instead of conventional steel chassis components. Nanoparticles are now being used to reinforce tires and reduce resistance, resulting in fuel savings.



Major Highlights of the Market:

  • In 2016, the Volkswagen Nanospyder, a completely recyclable vehicle concept, was one of the entries in the annual LA Auto Show's Design Challenge. The Nanospyder has just five years to keep up with the new automotive safety advances. It would make a vehicle that could be assembled, disassembled, and reassembled on a microscopic level using nanotechnology.

  • Increased adoption of nanotechnology in the United States has changed the manufacturing landscape in the country, propelling market development. Moleaer Inc., NDB Inc., Rokk3r, Ike Scientific LLC, and Ligandal Inc. are among the most successful startups in the nanotechnology industry in the United States.

  • In 2018, L3 Harris Technologies, Inc. agreed to buy a minority stake in Peak Nano Optics, LLC (Peak Nano), a Dallas-based nanotechnology company, to gain access to its optics technology and strengthen its current product lines and services for military ISR and commercial customers.

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Conclusion: Growing acceptance across industries, making nanotechnology a reality

The eventual fate of nanotechnology in the development business ought to be respected not just as far as improved material properties and capacities yet in addition regarding energy preservation.

Nanotechnology has a plethora of applications in the automotive industry. Nanotechnology is being used to improve vehicle batteries, nanoparticulate air filters, and ultrathin anti-glare layers for windows and mirrors, among other things. Future applications could include energy-harvesting bodywork, self-healing paint, shape shifting skin, and improved fuel cell efficiency in future electric and hydrogen-powered cars, all fascinating developments that could drive the next wave of automotive innovation.

Fuel cells, a renewable alternative to hydrocarbon fuels, will benefit from nanotechnology as well. Through the use of nanoparticles of platinum or other metals, nanotechnology provides a solution for dramatically lowering the cost of fuel usage.

Published by siya


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