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what is today a nano product available for purchase on the market in the world The term "nanotechnology" refers to the process of developing, modifying, designing, and implementing a functional system or material on a very small scale. The basic tasks that are included in the field of nanotechnology are referred to as synthesis, manipulation, design, and application of functional systems or materials at the nano scale. It is applicable to a wide range of industries, including as agriculture, food safety, biosensors, and even diagnostics in the medical sector. It draws on various fields of study. The global total expenditure in the research and development of nanotechnology surpassed $10 billion in just one single year (2008). The Philippines is also home to a research program focused on nanotechnology that was just launched. Research in the following fields—semiconductors, information technology, energy, agriculture, medicine, and environmental protection—is being prioritized by the Department of Science and Technology–Philippine Commission for Advanced Technology Research and Development (DOST–PCASTRD), which is shorthand for the Department of Science and Technology–Philippine Commission for Advanced Technology Research and Development. 1) Nano-silica-based fertilizers, which improve the germination and growth rates of tomato plants. 2) Fruit coating technology, which can extend the shelf life of precious fruits like mango and papaya. Both of these products are noteworthy in the field of agriculture and were developed as part of the Nanotechnology Enhancement Program at the University of the Philippines Los Baos. 3) The practice of applying nanocoatings to plant growth regulators, which can accelerate the germination of coffee, banana, and cassava seeds as well as the growth of their roots. The surprising low number of patent applications filed in this country is insufficient to meet the demands of a market that is quickly growing for innovative nanotechnology products. On the other hand, considering the enormous breadth of potential applications and the general uptick in funding for research and development in the field of nanotechnology, it is reasonable to assume that the number of patent applications will increase. The United States alone saw a more than threefold increase in the number of patent applications submitted for nanotechnology-related products in 2014. Because of the multidisciplinary nature of nanotechnology and the general lack of differentiation between standard patents and nanotechnology patents, there is also a tendency for intellectual property claims to overlap. This can be attributed to the fact that there is a propensity for intellectual property claims to overlap. The laws that regulate intellectual property in each country or region need to be revised so that they can keep up with the rapid rate at which nanotechnology research is advancing. The World Health Organization and the World Intellectual Property Organization have both begun the process of revising the criteria that are used to evaluate products that are the result of the application of nanotechnology. This chapter discusses the current state of nanotechnology research in the Philippines, as well as its potential applications, the commercial nanotechnology products that are currently available, and the research and development program that the Philippine government has established for nanotechnology. Additionally, the chapter looks at the commercial nanotechnology products that are currently available. Introduction Nanotechnology is an emerging area of study that draws from a wide range of academic disciplines. It is concerned with the modification of substances on the nano scale in order to obtain new and interesting qualities. In spite of the widespread belief that this area is still in its infancy and the fact that it is currently regarded as an emerging field of study, this is not a new issue. For decades, the scientific community has been undertaking a variety of research on nano science phenomena. and nano particles have been seen in natural systems as far back as ancient times. Most notably, nanotechnology can be traced back to artisans working in the third century who were skilled in what are now known as nano composites, which refers to the use of nanopartises to improve the overall properties of a composite material. These artisans were able to do this because they used nanopartises. The Lycurgus Cup is an iridescent Roman decorative artifact that changes color depending on the light source. It is thought to be one of the most well-known examples of the application of nanotechnology during this time period. It looks to be an emerald green hue when there is not enough light for light to travel through it, but when light does pass through it, it displays a vivid red color. This phenomenon is the direct consequence of the incorporation of nanoparticles of gold-silver alloy into composite materials. Between the third and seventeenth centuries, the Middle East was the site of the development and production of Damascus steel, a type of blade that was both exceptionally sharp and impossible to break. Many people believe that Valyrian Steel, the protagonist's weapon of choice in George R.R. Martin's magnum work, A Song of Ice and Fire, was modeled after this sword. Damascus steel originated in India and Sri Lanka, and it was transferred to the Middle East, where it quickly became popular and production expanded. Middle Eastern smiths imported their ingots from those two countries. The blade has distinctive patterns that are reminiscent of raindrops or flowing water, and these patterns are what give the blade its name. Steel blades have only just recently been found to include nano wires and carbon nanotube, which both contribute to the material's super plasticity and its extreme toughness. nano product in the market As a result of the improvements nanotechnology may bring to product performance, it is increasingly being incorporated into consumer goods. readily accessible nano products on the current market. Products that have been improved via nanotechnology have had their physical properties modified because of the process of miniaturization. using nanotechnology to create the lenses for sunglasses. This is the first time that sunglasses with ultra-thin coatings of protective and anti-reflective polymer have been commercially available. Nanotechnology allows for scratch-resistant coatings to be applied to nano composites used in optical components. These coatings are ultra-low profile; they're clear; they're ideal for everyday usage; and they're simple to clean without sacrificing optical clarity. Moreover, the price is fair considering the long-term reliability that is gained. fibers fabricated by nanotechnology. One trend in the textile business is the relocation of clothing manufacture to developing countries. The high-priced countries of Western Europe have little chance of competing in this market until they begin producing high-tech apparel with greater advantages for the end user. Jackets that keep the wearer dry and protected from the wind are included in this category. Clothing with additional electrical capabilities will be referred to in the future as "smart clothing" or "wearable electronics." wrinkle-free textiles developed using nanotechnology. It's impossible to exaggerate the value of high-performance, functional clothing in the workplace. Fabrics made by Gore-Tex, for instance, are both watertight and anti static. Using nanotechnology, we were able to include the carbon particle membrane and guarantee that the user would be completely shielded from any electrostatic forces. using nanotechnology to athletic gear. High-performance ski wax has been increasingly popular in recent years because of its hard and fast surface. The ultra thin layer protects for far longer than wax coatings do. A French company has unveiled a tennis racquet made of carbon nanotube, which they claim increases the racquet's pliability and stability against twisting. Compared to current carbon rackets, these are stronger and last longer. It has been shown that coating the inner core of tennis balls with polymer clay nano composites significantly increases their longevity. These tennis balls from Companies are designed to last twice as long as regular tennis balls. Protective lotions with nanotechnology-based sunscreens Nanotechnology has several potential uses, one of which is in sunscreen. The conventional chemical method of UV protection has the drawback of having a short lifespan. Sunscreens that include inorganic nano particles like titanium dioxide have several benefits. Titanium dioxide nano particles maintain their unflattering whiteness even when their particle size decreases, although they still provide UV protection when used in large quantities. New technologies, such as nanotechnology, must meet a number of conditions. The likelihood of a country adopting this technology increases in its presence. We must first think about what this technology can do for the country. exactly what are they What benefits have you seen as a result of the introduction of new technologies into the marketplace? Two, how helpful it is or Identify the usefulness and implementation of technology; the utility that provides advantages. It's what defines what the country needs, and how well emerging technologies can provide for those needs. Plus, think about It will affect the development stage and ease of entry of a technology into the country. The state of technology right now. It is crucial that this technology develops to a mature state. As a result, it will be much simpler to get widespread support throughout the nation. The reality of technology and its applications is, at last, here. A commoner was made aware of it. Acquiring a foundational knowledge of technical principles leads to Embracing New Technologies What follows is a discussion of the factors that have led to the widespread use of nanotechnology in this nation. Concerning the Philippines, and the Obstacles That Must Be Overcome to Achieve Containment. The advantages of nanotechnology are provided. 3.1.1 Enabling Factors The development of nanotechnology has been facilitated by a number of public and commercial organizations. diverse international locations Efforts to expand the usage of its technologies have led to a slew of In the wake of commercialization flops, research infrastructures and innovation models. being developed to unearth key components for nanotechnology's widespread use. One of the most important uses of nanotechnology is in sensors and biosensors. depending on Such is the potential development of nanotechnology and the industries that will arise from it. Electronics and optoelectronics manufacturing New, cutting-edge technological devices are constantly being created. along with major advances in nanotechnology. Semiconductors and electronic equipment. Similarly, nanotechnology's contribution is an advancement in the field. People will start doing this very soon. They are aware of and enthusiastic about the potential advantages of nanotechnology and support making it widely available in the country. Since the very first nanotechnological uses were developed, this has been a major cause for alarm. The use of technology comes with risks to the natural world. Hence, it's also really important. Because of nanotechnology's low impact on the environment, it's widespread use is likely to occur in the near future. The application of modern gadgetry. Because of the peculiar properties of nanomaterials, this might lead to intriguing situations. Eco-friendlier software that promises to replace conventional resources. The development of more robust materials extends the usefulness of manufactured goods. What this means for the product is reduced upkeep throughout construction. Also, they are nanomaterials. It's a type of insulation used to keep buildings warm while lowering their energy bills. There are several emerging technologies that have the potential to improve people's lives in many different countries. It's crucial to provide countries' businesses and economies the attention and support they need to thrive R&D spending on nanotechnology should get a larger slice of the national pie. The number of patents filed in the nanotechnology field may be influenced by the financial stability and growth of individual businesses. It plays a crucial role in the dissemination and implementation of nanotechnology. Country. Disadvantages and Resistance to Adoption 3.2 In addition to understanding the factors that pave the way for nanotechnology, Understanding the obstacles and limitations that may completely As a result, no foreign technology may enter the nation. As a part of the systems that enable Nanotechnology is said to be in an early stage in the fire industry. When utilizing technology, a number of challenges may develop. In each technical sector that aspires to adopt and execute new technologies, the difficulty of transferring such technology has been a major obstacle. Developed. At least three years will likely pass as scientists investigate nanotechnology. This commercialization is fraught with financial dangers and is not appropriate for investors. Getting a product out into the market may be a lengthy process. This results in less interest and funding.

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