There is today in fact a nano product available in the market today in the Philippines.
Nanotechnology refers to the process of creating, manipulating, designing, and applying a functional system or material on a tiny scale.
Synthesis, manipulation, design, and application of functional systems or materials at the nanoscale are the primary activities that comprise nanotechnology.
It can be applied to a variety of fields, including agriculture, food safety, biosensors, and even diagnostics in the medical field.
It is interdisciplinary.
Just in 2008, total global investment in the research and development of nanotechnology topped $10 billion.
A nanotechnology research program has also been initiated in the Philippines.
The Department of Science and Technology-Philippine Commission for Advanced Technology Research and Development (DOST-PCASTRD) is giving priority to research in the following areas: semiconductors, information technology, energy, agriculture, medicine, and protection of the environment.
In the field of agriculture, notable products developed as part of the Nanotechnology Enhancement Program at the University of the Philippines Los Baos include: 1) Nano-silica-based fertilizers that improve the germination and growth rates of tomato plants; and 2) Fruit coating technology that can extend the shelf life of precious fruits like mango and papaya. 3) The application of nanocoatings to plant growth regulators, which can stimulate the germination of coffee, banana, and cassava seeds and the growth of their roots. The unexpectedly low number of patent programs in this country are not sufficient to meet the rapidly expanding market for new nanotechnology items.
On the other hand, given the vast variety of possible uses and the general rise in financing for nanotechnology research and development, it is anticipated that the number of patent applications will rise.
In just the United States in 2014, the number of patent applications for nanotechnology items more than tripled.
There is also a propensity for intellectual property claims to overlap, which may be attributed to the interdisciplinary nature of nanotechnology as well as the general lack of differentiation between standard patents and nanotechnology patents.
Title | Description |
Place of Use | Hospital Home Lab |
Type | Technological |
Origin | India and Sri Lanka |
Usage | Tennice Racket and Ball |
In order to keep pace with breakthroughs in nanotechnology research, the rules governing intellectual property in each jurisdiction need to be updated.
In general, the World Health Organization and the World Intellectual Property Organization have begun the process of amending the criteria that apply to items that have been made using 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.
Introduction Nanotechnology is an emerging multidisciplinary field that deals with the manipulation of materials at the nanoscale to extract new and unique properties.
Despite the common perception that this field is in its infancy and is currently classified as an emerging field of study, this is not a new topic as the scientific community has been conducting several types of research on nanoscience phenomena for decades. and nanoparticles have existed in nature since antiquity.
Most notably, the roots of nanotechnology can be traced back to third-century artisans who were skilled in what are now known as nanocomposites, or the use of nanoparticles to improve the overall properties of a composite material.
Perhaps one of the most famous examples of the use of nanotechnology in the era is the Lycurgus Cup, an iridescent Roman decorative artifact that changes color depending on the light source.
When light passes through it, it shows a brilliant red color, while in dim light it appears emerald green.
This effect is the result of the use of gold-silver alloy nanoparticles in composite materials.
The Middle East between the 3rd and 17th centuries witnessed the development and production of an extremely sharp and unbreakable sword—Damascus steel.
The blade is widely considered to be the inspiration for Valyrian Steel in George R.R. Martin's magnum opus, A Song of Ice and Fire.
Originally from India and Sri Lanka, where Middle Eastern smiths imported their ingots, Damascus steel was brought there where it became popular and production flourished.
The blade is characterized by characteristic patterns reminiscent of raindrops or flowing water.
Recently, it has been discovered that steel blades contain nanowires and carbon nanotubes that create superplasticity and hardness.
Nano Product Available in the Market
Currently, a lot of consumer product incorporate nanotechnology to perform better.
available nano products in the market.
When features are made smaller, their physical qualities alter, which is how products with nanotechnology enhancements are affected.
lenses for sunglasses made using nanotechnology. For the first time, sunglasses with extremely thin protective and anti-reflective polymer coatings are marketed.
Nanotechnology offers anti-scratch coatings for optics made of nanocomposites.
These coatings are thin, transparent, perfect for daily use, and easy to maintain without affecting optical performance.
In addition, the cost is reasonable for the level of durability provided.
textiles using nanotechnology. Clothing production in low-cost nations is one particular trend in the textile industry.
Western European high-cost nations cannot compete in this market unless they manufacture high-tech clothing that offers more user benefits.
This includes windproof and waterproof jackets, which already play a significant role in the industry.
In the future, terms like "smart clothing" and "wearable electronics" will be used to describe clothing with added electrical capabilities.
fabrics made with nanotechnology that don't wrinkle.
The importance of high-performance practical apparel in the workplace cannot be overstated.
For instance, Gore-Tex has created a fabric that is weatherproof and antistatic.
Incorporating the membrane of carbon particles and ensuring total user protection from electrostatic charges required the use of nanotechnology.
using nanotechnology in sports gear. Today, a lot of people use high-performance ski wax, which offers a hard, quick surface.
The extremely thin covering has a far longer lifespan than traditional wax systems.
A French tennis racquet manufacturer recently introduced a racquet using carbon nanotubes for improved flexibility and twisting resistance.
The rackets are more powerful and durable than modern carbon rackets.
Polymer clay nanocomposites are used to coat the inner core of tennis balls to increase their durability.
Companis produces these tennis balls, which last twice as long as standard balls.
Sunscreens with nanotechnology in them Sunscreens are a further application for nanotechnology.
The traditional chemical UV protection approach is hampered by its poor long-term durability.
Numerous advantages are provided by sunscreen made with inorganic nanoparticles like titanium dioxide.
While titanium dioxide nanoparticles retain their undesirable whiteness of beauty as their particle size diminishes, they nevertheless offer UV protective qualities as a bulk substance.
Nano Product in the Philippines
In the Philippines, there is a nano product.
The advancement of A Technology is being aided by the combined efforts of researchers, engineers, and scientists all over the world.
As technology advances, potential benefits and drawbacks may emerge.
In order to fully reap the benefits of a developing technology, stakeholders must take proper steps to enable its entry into society and the market.
Several criteria have been identified for breakthrough technologies such as nanotechnology.
It has a favorable impact on a country's adoption of this technology.
The first consideration is the benefits that this technology provides to the country.
what are they What are the advantages of the spread of technology in the market? Second, the degree of usefulness or Identify the practical use and application of technology; utility that delivers benefits next, It determines the country's demands and how new technologies can meet them.
Another consideration is It will have an impact on the maturity and ease of admission of a technology into the country.
The current condition of technology. It is critical for this technology to acquire maturity.
This opens the door to easier acceptance in the country.
Finally, there is the actuality of technology and how it is used. It was conveyed to a layperson.
Understanding basic concepts leads to
- Technology adoption
This section discusses key elements that contribute to the country's adoption of nanotechnology.
- Philippines and the challenges that must be overcome in order to reach the aim of containment
It offers the advantages of nanotechnology. 3.1. Facilitating elements Nanotechnology has progressed with the help of different governmental and private sectors.
- the various countries Increasing efforts to use its technology have also resulted in a number of
- As a result of commercialization failures, research frameworks and technological innovation systems
are being created in order to discover crucial elements in the adoption of nanotechnology.
- Sensors and biosensors are two significant applications of nanotechnology.
- in accordance with
This is the possible growth of nanotechnology as a field and an industry that depends on it.
Industry of electronics and optoelectronics Advanced electronic devices are being developed.
- In conjunction with breakthroughs in nanotechnology.
- Electronics and semiconductors
In the same way, the contribution of nanotechnology represents a further improvement. It won't be long until people do this.
They recognize the benefits of nanotechnology and welcome its implementation in the country. It has been a source of concern since the first applications of nanotechnology were realized.
There are environmental dangers associated with technology.
As a result, it is also crucial.
- Nanotechnology's environmentally favorable qualities for ease of adoption
The use of technology.
This leads to fascinating scenarios due to the unique features of nanomaterials.
Programs that promise to be more environmentally friendly than present materials.
The creation of stronger and more durable materials increases the lifespan of a product.
This means more building and less maintenance for the product.
Furthermore, they are nanomaterials. It is used to reduce energy consumption in building insulation.
As one of the developing technologies with the potential to alter daily life in a number of countries, It is critical to pay attention to and assist countries' industries and economic activity.
Increase the gross domestic expenditures on research and development in the field of nanotechnology.
Companies' development and income levels will play a role in encouraging nanotechnology patent applications.
It is an important factor in the activities of nanotechnology involvement as well as its acceptance in nanotechnology.
Country. 3.2. Limitations and acceptance hurdles Apart from recognizing the variables that enable the adoption of nanotechnology,
- Identifying impediments and constraints that impede or even prevent
- It stops technology from entering the country.
- As a component of the technologies that
Nanotechnology is believed to be in its early phases in fire and to be a part of that stage. Several obstacles may arise when employing technology.
Technology transfer has been a key impediment in any technological field that seeks to accept and implement new technologies. Developed.
Nanotechnology research is expected to take at least three years. This commercialization involves a number of financial risks and is not suitable for investors. It takes a long time to market technology.
As a result, there is less attention and support. placed in the field; this ultimately slows its adoption.
The Answer to Two Questions About Nano Product
1: What are nano products used for?
Today, nanoparticles are used to make scratch-resistant eyeglass lenses, crack-resistant paints, anti-graffiti coatings on walls, clear sunscreens, dirt-repellent fabrics, self-cleaning windows, and ceramic coatings for solar cells. increase.
2: How do nano products impact society?
Nanotechnology can provide new solutions for millions of people in developing countries who lack access to basic services such as clean water, reliable energy, health care and education.