Many and huge achievements in the field of nanotechnology have been achieved so far in everyday life, and 10 examples of nano products in everyday life are very applicable in ten cases, and here we will have a brief look at these cases. Many experts consider this technology to be a futuristic technology in the sense that there is no limit to progress and development, and in the distant future we will see bigger and bigger achievements in smaller and smaller dimensions. However, this technology is still present in our lives, and we use things developed with its assistance. We'll look at seven things developed with nanotechnology that we already use in our daily lives without even recognizing it: Sunscreen lotion Nanoparticles have been used in sunscreens for years to improve their effectiveness on the skin. Titanium dioxide and zinc oxide are two forms of nanoparticles that are added to sunscreens. These particles not only keep UV rays from reaching the skin, but they are also lighter on it. As a result, sunscreens now are not as thick and sticky as sunscreens from 30 years ago. Silica nanoparticles are utilized in the textile industry to create fabrics that are impervious to water and other liquids. Silica can be mixed into any fabric texture or sprayed over the fabric's surface to provide a waterproof coating. As a result, as you may have noticed, some clothes are composed of a fabric that does not absorb water and is never stained. Many companies are using nano-additives to make fabrics and, eventually, clothes that don't wrinkle, keep their colors well, don't catch on fire, and keep you warmer in hot or cold weather. Furniture Furniture and home furnishings can be created using nanotechnology in the same manner that waterproof and disinfected clothing can be. Furniture or home furnishings can be created in such a way that their flammability is lowered by 35% using carbon nanofibers. glue Adhesives are also optimized using nanotechnology. It's worth noting that most adhesives lose a significant amount of stickiness at high temperatures. However, nanotechnology-based glue not only withstands high temperatures but also improves adhesion. Paint for automobiles We are all aware that bird droppings will discolor an automobile if left on it for an extended period of time. In this regard, Nanorepel (Nanorepel) has developed a very efficient nano coating that can protect the paint of an automobile from bird droppings. The company also makes nano-coatings that protect seats and other interior parts from dirt and stains. tennis racquet Nanotechnology has also caused a revolution in the realm of sports equipment, with tennis sports equipment being one of the best examples. The nanotechnology-created balls have an extremely long lifespan and durability. Tennis rackets that are significantly stronger and last longer have also been developed with the help of nanotechnology. Computer Without nanotechnology, we would undoubtedly lack much of the electrical equipment we utilize in our daily lives. With the use of nanotechnology, Intel is the undisputed pioneer of compact computer processors, producing the best and fastest CPUs in the world. A 10 nm chip is the most recent iteration of this company's processing technology. This is even more remarkable when you consider that a nanometer is one billionth of a meter.
nano products in everyday life
Nano technology in everyday life The application of nanotechnology in everyday life, nanotechnology and its tools, and the possibility of reaching materials It provides us with tools and products that have the desired properties and efficiency. All of these fantasies have come true thanks to nanotechnology. These fabrics are woven in the style of nature (lotus leaf, beetle skin, insect wings). They create unique characteristics. Waterproof fabrics are one of these properties. Fireproof and anti-wrinkle Nanotechnology and its numerous applications in daily life. The development of nanotechnology is the result of many studies on the displacement of subatomic particles by nanotechnology, which has produced a medicine that works in a targeted manner and enters the damaged lung as soon as it enters the body. What exactly is nanotechnology? In a nutshell, what is nanotechnology? What exactly are nanomaterials? The history of nanotechnology, the use of nano in everyday life, the use of nano in computer construction, the use of nano in medicine, the use of nano in automobile manufacturing, the use of nano in clothing, the use of nano in water and food, the use of nano in the manufacture of chemical sensors, military applications of nano technology to be One nanometer, for example, is one billionth of a meter! To gain a better understanding of this size, It is preferable to understand the size of the smallest bacteria. It measures 200 nanometers. A newspaper is also about 100,000 nanometers thick. So, on this extremely small scale, we will be working with atoms and molecules. As you may know, atoms make up everything on Earth, emphasizing the significance of this science. Now, as previously stated, the terms "nanotechnology" or "nanotechnology" are used. It is a description of science that is studied and used at the atomic level. Nanotechnology can be applied to almost any field, including chemistry, biology, physics, material science, and engineering, to name a few. Simply put, nanotechnology is a very small unit of measurement; consider the measurement unit meter; if the size or length of something is less than one meter, its scale is known as a centimeter.Each meter is converted to one hundred centimeters. When these sizes are reduced to millimeters, each centimeter equals 10 millimeters. Imagine the tip of a pencil dividing millimeters; the width of these tips is half a millimeter or one-seventh of a millimeter. Consider a strand of human hair that is less than a tenth of a millimeter long as an example. From water-resistant clothing to a razor-sharp knife, Materials with nanometer dimensions acquire a number of properties that are very appealing to experts in this field, so nanotechnology engineers apply these changes in various areas of lifestyle. One of these changes is to improve the existing equipment in various areas. According to Bagheri, nanotechnology has enabled specialists in the field of electronics to create transistors with much higher processing capacities. We wouldn't have computers and smartphones with this much processing power if it weren't for nanotechnology. These developments are possible in any field. Here, we concentrate on issues that affect people's daily lives. Nanotechnology has a significant impact on the textile and clothing industries. One of the benefits of nanotechnology to the textile industry is the production of stain-proof and waterproof clothing. Fluorine-containing compounds can be used to coat the surfaces of valuable dresses, giving them waterproof properties. As a result, nanotechnology has a very broad world, and using it to improve people's lives has many tangible applications. Bagheri explains in this regard: "We have always seen that foreign brands produce knives that are very slow." These knives had a type of plating or nano-coating that kept them from rusting, tarnishing, or becoming damaged. Our internal researchers were able to create this nano coating; a very thin layer of atoms stuck together. With excellent results, petroleum and petrochemical engineers used the same technologies for petrochemical industry valves. Oil is a very corrosive fluid, and without the nano shield coating, the valves would be destroyed very quickly. However, this technology increased the life of oil industry valves by two to three times. How well do people understand nanotechnology? We ask Bagheri, which is the most effective way of using this technology that affects people's daily lives, because it has no boundaries or obstacles to enter. In response, he emphasizes the importance of certain areas in any society, stating, "Health is an area that has priority in all countries." In fact, we cannot choose which field has had a greater impact than nanotechnology because the nature of nanotechnology is interdisciplinary; that is, we have seen changes in all industries as a result of this technology. Every industry is affected in the same way. Antibacterial and self-cleaning products, for example, are extremely important in the textile industry. We used nanotechnology to create odorless socks; this property is very useful and effective for diabetic patients because diabetic wounds heal slowly, but these socks accelerate the healing process of their wounds, so we can say that nanotechnology improves the quality of life in the textile industry. has progressed
10 examples of nano products
We use nano products in our daily lives; here are 10 examples. 1-Optical optics and virtual reality The "Optik" company operating in the field of nanotechnologie in America succeeded in producing contact lenses that may be used instead of huge virtual reality headsets without having any influence on the person's vision. 2-Nano sensors to detect heart attack Researchers at the California Institute of Technology (Caltech) have succeeded in inventing nanosensors that can detect a heart attack before it starts. This technology can save patients' lives and also save money. The dimensions of the latest iteration of this chip are merely 90 microns. 3-A nanomaterial to fight germs Australian and Spanish researchers succeeded in producing a nanomaterial inspired by a type of dragonfly and employing "Black Silicon", whose surface resembles the wings of the Australian dragonfly known as "wandering percher". Due to its ivory-like surface, this nanomaterial can prevent 4-Nano 3D printing batteries Researchers from Harvard University and the University of Illinois succeeded in designing batteries with a length of one millimeter using 3D printers. The application of these nanobatteries is in medical engineering and the development of biosensors and treatment tracking gadgets that can be placed on the body's skin. 5-Eye surgery nano robot Researchers at the "Zürich Institute of Technology" succeeded in developing a nanorobot that can be implanted in the eye to execute precise surgery and inject the needed medicine doses into the eye tissue with remarkable accuracy. The diameter of this surgical robot is barely 285 microns. 6-Super flexible nano chip Researchers at the Zurich Institute of Technology have succeeded in designing a nanoelectronic device that can wrap around a web with remarkable flexibility. This nanochip can be employed in wearable technology and practical tools in the medical field. Currently, the most prevalent usage of these nanochips is in the manufacturing of artificial eyes as well as in the monitoring of glaucoma. 7-Biodegradable nanoelectrodes Using cuttlefish ink, Carnegie Mellon University researchers succeeded in developing a chemical compound and a nanostructure to power ingestible electronic devices. 8-Using nanoparticles to combat cancer cells Massachusetts Institute of Technology (MIT) researchers have produced nanoparticles that, in addition to delivering anticancer medications such as doxorubicin, also carry short strands of RNA that inactivate genes that cancer cells utilize to evade the drug. These nanoparticles can be used in the treatment of aggressive kinds of breast cancer. 9-Silver nanoparticles to destroy microorganisms Researchers at a research center in Washington have succeeded in manufacturing silver nanoparticles that can be used in everything from toothpaste to garments. These particles can attack germs. 10-Development of breath test devices employing nanotechnology University researchers in America succeeded in inventing a breath test equipment for diabetic patients that employs nano sensors to detect the amounts of acetone in the breath of patients. The future of nanotechnology On the one hand, due to technological improvements, increasing government support, increased investment in the private sector, and rising demand for smaller gadgets, this field is predicted globally. On the one hand, there can be worries about the environmental, health, and safety dangers of nanotechnology, as well as its commercialization, which should be taken into account.
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