What is Nanotechnology and What Can It Do?

 Nano technology

 Nanotechnology is a technology that studies, understands and controls matter with dimensions ranging between 1 and 100 nanometers, which can be used in all different scientific fields, such as: physics, chemistry, biology, materials science, and engineering. It is worth noting that the term nanotechnology or nanotechnology relates to the basic understanding of physical, chemical, and biological properties at atomic and molecular scales, and the controlled control of these properties to create materials and functional systems with unique capabilities.

The discovery of nanotechnology

 Ideas and concepts began to form for nanoscience and technology long before it was used, when physicist Richard Feynman proposed at the American Physics Society meeting at Caltech on December 29, 1959, a topic titled “There is plenty of room in nanotechnology.” There's Plenty of Room at the Bottom, where Feynman described a process by which scientists can manipulate and manipulate individual atoms and molecules, and a decade after his exploration of ultraprecision machining, Professor Norio Taniguchi ( Norio Taniguchi coined the term nanotechnology, and until 1981 nanotechnology began with the development of the Scanning Tunneling Microscope, through which small individual atoms could be seen.

Benefits of nanotechnology

 Nanotechnology provides many benefits that enter into many areas of life, as it helps to greatly improve many technological and industrial sectors, such as: information technology, energy, medicine, national security, environmental sciences, food safety, and many other things, It also adapts the structures of materials in very small scales to achieve their specific properties, through which it can strengthen the effectiveness of materials, while being lightweight, more durable, interactive and interlocking, many of the daily commercial products on the market rely on nanotechnology. 

For example, transparent nano-films or films on computer screens, cameras, glasses, windows, and other surfaces can help make them water-resistant, anti-reflective, UV- or IR-resistant, scratch-resistant, or electrically conductive.

Nanotechnology has also entered consumer products, where billions of microscopic nanowhiskers, each about 10 nanometers long, have been molecularly attached to natural and synthetic fibers to add stain resistance to clothing and fabrics, and crystals have been used. Zinc oxide nanoparticles to make an invisible sunscreen protect against UV rays, and silver nanocrystals have been included in bandages to kill bacteria and prevent infection.

 Nano technology

 Nanotechnology is a technology that studies, understands and controls matter with dimensions ranging between 1 and 100 nanometers, which can be used in all different scientific fields, such as: physics, chemistry, biology, materials science, and engineering. It is worth noting that the term nanotechnology or nanotechnology relates to the basic understanding of physical, chemical, and biological properties at atomic and molecular scales, and the controlled control of these properties to create materials and functional systems with unique capabilities.

The discovery of nanotechnology

 Ideas and concepts began to form for nanoscience and technology long before it was used, when physicist Richard Feynman proposed at the American Physics Society meeting at Caltech on December 29, 1959, a topic titled “There is plenty of room in nanotechnology.” There's Plenty of Room at the Bottom, where Feynman described a process by which scientists can manipulate and manipulate individual atoms and molecules, and a decade after his exploration of ultraprecision machining, Professor Norio Taniguchi ( Norio Taniguchi coined the term nanotechnology, and until 1981 nanotechnology began with the development of the Scanning Tunneling Microscope, through which small individual atoms could be seen.

Benefits of nanotechnology

 Nanotechnology provides many benefits that enter into many areas of life, as it helps to greatly improve many technological and industrial sectors, such as: information technology, energy, medicine, national security, environmental sciences, food safety, and many other things, It also adapts the structures of materials in very small scales to achieve their specific properties, through which it can strengthen the effectiveness of materials, while being lightweight, more durable, interactive and interlocking, many of the daily commercial products on the market rely on nanotechnology. 

For example, transparent nano-films or films on computer screens, cameras, glasses, windows, and other surfaces can help make them water-resistant, anti-reflective, UV- or IR-resistant, scratch-resistant, or electrically conductive.

Nanotechnology has also entered consumer products, where billions of microscopic nanowhiskers, each about 10 nanometers long, have been molecularly attached to natural and synthetic fibers to add stain resistance to clothing and fabrics, and crystals have been used. Zinc oxide nanoparticles to make an invisible sunscreen protect against UV rays, and silver nanocrystals have been included in bandages to kill bacteria and prevent infection.