The Power of Zero
COPPER IS AT THE HEART OF THE ENERGY TRANSITION Today, the copper industry accounts for about 0.2 percent of worldwide greenhouse gas emissions, and demand for copper is expected to…
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Meteor Minerals™ brings over 15 years of experience in the research and development of ultra-fine, ISO-certified Nano Copper. Our engineering technology represents the systematic and creative application of scientific, mathematical, and practical knowledge to solve problems and design innovative solutions. Through rigorous research, analysis, and design, we develop advanced systems and processes to deliver outstanding results.
Our scientific team leverages bespoke nanotechnology to manipulate matter at the atomic and molecular levels—working at dimensions as small as 9 nanometres. This capability allows our scientists and engineers to create materials with enhanced properties and functionalities. From developing super-strong nanomaterials to pioneering advanced technologies, the possibilities are endless and the benefits, immense.
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Is the science of manipulating atoms and molecules at the nanoscale — about 80,000 times smaller than the width of a human hair. It involves the use of science and technology at dimensions of one billionth of a meter or smaller, enabling groundbreaking innovations across many practical applications.
In today’s modern and futuristic era, you are likely familiar with the term “Nanotechnology.” Nanotechnology is the science of working with materials at the nanoscale, and it is revolutionizing the way we design and create.
At Meteor Minerals™, our technology engineers have developed sophisticated systems that operate at incredibly precise, micro levels. The ability to visualize and manipulate nano-sized materials has unlocked endless possibilities across industries and scientific fields.
Since nanotechnology is fundamentally a set of techniques that allow the manipulation of properties at an extremely small scale, it finds application in a wide variety of areas, including:
Implementation of environmentally friendly nano mineral particle procedures for enhancing product performance (including inter-laboratory comparisons/proficiency testing) — a 2023 laboratory testing supplement to the appraisal for advanced technology
Nanotechnology offers innovative approaches to overcoming longstanding challenges in aerospace engineering, from enhancing material properties to advancing the capabilities of electronic systems — all contributing to the overarching goal of more sustainable and efficient air and space travel.
In the aerospace industry, nanotechnology is pivotal for developing materials that are both lighter and stronger, thereby improving fuel efficiency and structural integrity. Nano-engineered materials, such as carbon nanotubes, are used to reduce weight while increasing durability — a crucial advantage for withstanding extreme environmental conditions. Additionally, nanotechnology enhances the thermal resistance of aerospace components, which is essential for protecting against the high temperatures encountered during flight and re-entry.
The transfer of drugs to specific cells in the human body using nanoparticles is another dynamic application of nanotechnology. Different parts of the body can be treated individually by delivering drug molecules precisely to targeted areas without interfering with the rest of the body. The accurate dosage of life-saving drugs can be selected by observing the reactions of combined molecules with the help of nanotechnology-based machines.
Nanotechnology has numerous noteworthy applications in biomedicine; however, it’s most significant achievements lie in the development of novel diagnostic tools, advanced drug delivery systems, and vaccines. This leaves many other potential uses of nanotechnology in bio-medicine still to be explored.
Infectious diseases cause significant mortality and morbidity worldwide, as seen in cases such as cancer, malaria, tuberculosis (TB), and HIV. With novel nanotechnology solutions, the challenges posed by these infectious diseases can be overcome by formulating drugs within nanocarriers.
Specific examples of nano medicines include Doxil, a Liposomal formulation of Doxorubicin, which has been approved by the FDA for the treatment of Kaposi’s sarcoma, ovarian cancer, and multiple Myeloma.
A nanotech chip can easily detect diseases at early stages and determine the exact progression of fatal illnesses like cancer by scanning human body cells. Its atomic-level functioning makes it more reliable than other technologies currently available on the market.
Nanotechnology is used to explore chemical reactions in the field of chemistry. Many simulation models, such as those for nuclear reactors, robotic power systems, and more, are based on chemical processes. In the world of chemical sciences, energy producers often use nanotechnology to better understand the reactions, requirements, and strengths of their machines.
Nano amplification and chip embedding is used for building semiconductor devices which can even maintain and neutralize the electric flow. Now engineers are using integrated nano-circuits in their silicon chips to reduce the size of the processors.
Nano electronics refers to the use of nanotechnology on electronic components, especially transistors. Although the term nanotechnology is generally defined asutilizing technology less than 100 nm in size, nanoelectronics often refer to transistor devices that are so small that inter-atomic interactions and quantum mechanical properties need to be studied extensively. As a result, present transistors do not fall under this category, even though these devices are manufactured with 45 nm, 32 nm, or 22 nm technology.
Other Fields of Nanotechnology Applications
Nanotechnology is also applied in the communication sector, memory storage, construction, the food industry, and cosmetics.
The high surface area of nanomaterials promotes faster electrochemical reactions, leading to quicker charging and discharging rates. Nanomaterials also enhance the conductivity of battery components, further improving the speed and efficiency of charge transfer.
As the world’s population continues to grow; our already-stretched agricultural systems will need to produce significantly more food. Scientists have recognized that reducing food waste is a critical tool for improving food availability, given that a third of all food is currently wasted. Recently, researchers have used nanoparticles to create innovative coatings for fruit that extend shelf life. Innovations in nanotechnology like this will be fundamental to increasing global food security in the future.
Kappa Laboratories Inc., which certified Meteor Mineral’s product and issued our certification and technical laboratory test results confirming that our product is fit for human consumption, is registered with the U.S. Food and Drug Administration (FDA). You can find the laboratory results in our Technical Specifications section.
Nanotechnology in cosmetics involves the use of nanoscale materials and techniques to enhance the performance, stability, and delivery of active ingredients in cosmetic products. This includes the use of nanoparticles for UV protection, improved skin penetration, and more effective color or fragrance release.
Advanced Applications of Nano Copper Our applications have become increasingly sophisticated, giving scientists and engineers the ability to produce ISO-certified, ultra-fine nano copper powder with 99.99% purity to address some of the most pressing challenges facing humanity — including treating cancer, generating clean and renewable energy, and providing clean water anytime, anywhere. Perhaps the greatest challenge in harnessing the power of nanotechnology lies in having the foresight and responsibility to use it wisely.
Meteor Minerals™ operates its own mining facilities, where we extract copper ore directly from the ground and manufacture ultra-fine, ISO-certified nano copper powder that is 99.99% pure and as small as 9 nanometers — fit for human consumption.
Meteor Minerals™ also offers customized production of ISO-certified nano copper, packaged in Meteor Minerals™–branded bottles with traceable barcodes. We can supply nano copper powder in any required quantity, at competitive prices, and with full certification to meet our clients’ specific needs.
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Santiago Chile
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