Nanotechnology is a field that is rapidly transforming different industries. Discoveries made in this field are leading to more resisting materials, smaller electronics, and medical innovations just to cite a few examples. These nanotechnology companies are revolutionizing their respective fields by developing groundbreaking products.
How We Chose Our Ratings
We selected different companies that are using nanotechnology to offer innovative products. Here is how we chose our ratings:
Best Eight Nanotechnology Companies
These companies have become leaders in their respective fields by using nanotechnology to develop innovative products
This company mixes nanotechnology and 3D printing to create additives. Engineering additives at the molecular level allows Nano Dimension to create products with unique properties.
The company has developed proprietary software that is used to design products with advanced polymers and other materials. The products are then manufactured thanks to 3D printing.
Nano Dimension specializes in printed circuit boards and other electronics. The company creates prototypes and specialized components such as flexible electronic components.
This approach to prototyping allows for more precision. The adhesives and polymers developed thanks to nanotechnology are used to gain more control over the conductive properties of the different parts of a PCB.
Using 3D printing is an interesting approach since it helps reduce production costs and it is possible that using nanotechnology in association with 3D printing will become a new standard in the world of electronics.
Advance Reproductions is an imaging company. This company has developed different coatings with unique properties thanks to nanotechnology.
The solutions offered include metallization coatings and glass coatings. The company also offers corporate graphic printing services and creates displays for commercial uses and professional events. It offers LED display boxes, floor graphics, and promotional signs.
Advanced printing techniques are used to create durable graphics. Photoplotting and photomasking allow this company to achieve a high-level of details at a molecular scale when creating printed products. These techniques are used to print circuit boards as well as graphics.
Using photoplotting and photomasking means that Advance Reproductions can create precise results regardless of the scale of the project. It is interesting to note how this company has been using nanotechnology to create PCBs as well as large-scale graphics
Z-Medica is a medical company that has created a hemorrhage control solution by using nanotechnology. The product created by this company is called QuikClot. It contains a hemostatic agent that supports the blood’s natural ability to clot.
This is an example of nanotechnology being used to save lives. This solution is already used by the military and could become a common product used in hospitals.
A tourniquet is often used to control bleeding. There are risks associated with this method, and it doesn’t help with the clotting process. QuikClot uses a safer approach and causes the clotting process to start as soon as the product is applied.
InMat has developed different materials with nanotechnology. The solutions offered by this company are versatile and eco-friendly.
InMat offers different coatings that can be rolled or sprayed on. The coatings use materials such as silicates, rubber, or resins that have been manipulated at a molecular level to achieve specific properties.
These coatings are used to create barriers that stop molecules. One of the coatings developed by InMat creates a gas barrier that keeps humidity, pressure, and light out. Another coating can be applied to elastic surfaces.
There is a wide range of applications for these coatings. Some of these products have been used in food packaging, chemical protection equipment, sporting goods, and tires.
APS Materials is another company with different coating products. The company offers coating solutions with specific properties that were developed by working at the molecular level.
APS Materials has created a coating that can be applied to implants to mimic bones. This technology reduces the risks of an implant being rejected by the body.
This company also offers metallic coatings and ceramic sprays that have been used in different industries. The aerospace industry has used these products to coat jet engine components and create them with a barrier that works at a molecular level.
These coating products have been used in the semiconductor wafer industry. Manufacturing these wafers requires the use of chemical gases that have a corrosive effect and can damage equipment. APS Materials offers a product that can be used to coat equipment and protect it in this environment.
Solarmer specializes in the creation of polymers used to make solar panels. The company sells the polymers themselves.
Using nanotechnology have allowed Solarmer to create a new generation of polymers with unique conductive properties. Some of the polymers developed by the company also have flexible properties, which makes installation easier once they are used to create solar panels.
These polymers help reduce the weight of solar panels, improve their conductivity and efficiency, and make the panels more durable.
Solar Botanic is a startup that has created an artificial tree that can produce energy. The purpose of this project is to produce energy at a low cost while improving the way urban areas look.
Solar Botanic used nanotechnology to design synthetic leaves that replicate the natural process of photosynthesis. The branches of the artificial tree can turn the wind into kinetic energy.
The energy from the artificial leaves and branches is turned into electricity, and the design of the synthetic tree allows it to connect to the main power grid thanks to its roots. This is an interesting use of nanotechnology to produce affordable energy. This artificial tree is still a prototype, but this is an innovation with huge potential if a city government decides to invest in it.
This startup has also developed a new way to store power in fuel cells. Fuel cells are often used to store the electricity generated by renewable energy systems, and improving their efficiency has been one of the challenges the green energy industry has been facing for the past decade.
Rogue Valley Microdevices
Rogue Valley Microdevices produces silicon wafers. Silicon wafers are extremely thin slices of semiconductor material. They are used in circuits and solar cells.
This company also offers an interesting selection of Micro-Electro-Mechanical Systems. The scale of these devices is somewhat larger than the scale of most nanotechnology products, but Rogue Valley Microdevices offers some electronic devices that are small enough to be qualified as nanotechnology.
The company also has a selection of coatings and films. The products developed by this company have been used in fuel cells and other fields. The company has contributed to developing microfluidics used in medical diagnostics, medical implants, gas, chemical, and mechanical sensors, and microsurgical tools.
A Guide To Nanotechnology
The technology that these different companies are using is truly fascinating. Here are a few things you need to know about this scientific field if you are interested in nanotechnology companies.
What Is Nanotechnology?
Nanotechnology is a scientific field that studies the manipulation of atoms and molecules. The idea that matter can be manipulated at this scale has existed for decades, but working with individual atoms and molecules has been made possible thanks to recent innovations.
Manipulating matter at the atomic or molecular scale allows scientists to gain greater control of chemical properties. It also allows them to create lightweight materials and to explore new possibilities for making miniaturized devices.
Engineering matter at the molecular scale isn’t new, but recent discoveries are giving scientists more control over what they can do with atoms or molecules.
Artisans developed techniques that allowed them to work with gold and silver particles to create stained glass during the Middle Ages. This is an example of matter being manipulated at the molecular scale even though the artisans who used this technique didn’t understand how it worked.
The development of the scanning tunneling microscope in the 1980s represents a significant advancement in nanotechnology. This device made it possible for scientists to see atoms and helped improve their understanding of how atoms worked.
The Applications Of Nanotechnology
Nanotechnology has the potential to change several industries. It might be a few years before some innovations become mainstream, but some products have already started transforming certain industries such as the use of industrial coatings or the use of nanotechnology products in food packaging.
The development of nanomaterials could transform industries such as construction and electronics. Materials can be engineering at the molecular or sub-molecular level to gain specific properties.
Scientists have created nanotubes. These molecules form resistant structures in the shape of a tube. This tube gives them excellent properties as thermal conductors. Some of these molecules have photoluminescent properties. Nanotubes could change the way LEDs and photo-detectors are made.
Fullerenes are similar to nanotubes. These molecules have a structure that is similar to carbon. They are shaped like spheres and can be used to create a material that is lightweight and resistant.
Nanopillars are another example of engineered molecules that can be used to create unique materials. Nanopillars have been used to make more performing solar cells thanks to their conductive properties.
Nanomaterials have been conductive properties and can be used to get more precise results in fields such as biological imaging or display technology.
Nanotechnology is also creating some new opportunities in the medical field. Working at the molecular scale means that researchers can target specific cells. This could be the key to finding a treatment that can target cancerous cells and effectively eliminate a cancerous tumor.
Some scientists have been successful in early trials. Gelatin nanoparticles have been used to deliver drugs to specific brain tissues in mice.
Researchers also believe they could use nanotechnology to create better vaccines that can target a specific portion of a virus. This technology would result in vaccines that work against a wide range of strands that have this portion in common.
The ability to target specific cells is transforming the way certain conditions are diagnosed. Some companies have already commercialized microfluids that can be used to diagnose certain conditions.
In the future, it is possible that nanotechnology will be used to repair cells or to create implants that mimic human tissues.
Nanotechnology will also transform electronics. Some companies have already developed nanocomponents that are used in miniaturized devices.
Atomic physicists are already using equipment that relies on quantum computing. This technology can increase the computing power and storage capacity of a device by having electrons simultaneously store a 0 and 1 value when inscribing data.
This state of superposition could transform the way computers work and make them significantly more performing compared to current technology that only allows electrons to hold a 0 or 1 state at once.
Nanotechnology is creating a lot of exciting opportunities in a wide variety of fields. Some of these technologies are already transforming products such as printed circuit boards, solar panels, food packaging, and coatings used in industrial settings. It will be interesting to see how these nanotechnology companies keep innovating in their respective fields.