Nanomaterials
nanomaterials
What are nanomaterials?
Briefly: Nanomaterials are substances with significantly improved or new (including previously unknown) mechanical, chemical, electrophysical, optical, thermophysical and other properties of these materials, determined by object control technologies on the smallest scale.
Nanomaterials are a type of product of the nanoindustry, substances and compositions of substances, which are an artificially or naturally ordered system of basic elements with nanometric characteristic dimensions and a special manifestation of physical and (or) chemical interactions during the cooperation of nanoscale elements that provide a significant improvement or the emergence of a set of qualitatively new (including previously unknown) mechanical, chemical, electrophysical, optical, thermophysical and other properties of these materials, determined by the manifestation of nanoscale factors.
A variety of nanoindustry products in the form of materials containing structural elements with nanometer dimensions, the presence of which provides a significant improvement or the appearance of qualitatively new mechanical, chemical, physical, biological and other properties determined by the manifestation of nanoscale factors.
The sizes of structural elements of nanomaterials range from 1 to 100 nm. The manifestation of quantum-size effects in nanoparticles leads to a sharp change in their main characteristics and properties. The introduction of nanomaterials means a qualitative leap in modern technology for producing practically important systems - the creation of complex devices, the sizes of which are in the range of sizes of supramolecular formations.
To obtain nanomaterials and nanosystems based on them, atomic and molecular design (methods of "atomic-molecular architecture") is used. Following nature, Nanotechnology asserts a new paradigm of all production activities "bottom-up" from individual atoms to the product, and not "top-down", like traditional technologies that cut off excess material from a massive workpiece. Nanotechnology is creating a new philosophy of the technosphere. The nanotechnological revolution will completely change all vital spheres of human activity and society.
Nanomaterials are a type of product of the nanoindustry, substances and compositions of substances, which are an artificially or naturally ordered system of basic elements with nanometric characteristic dimensions and a special manifestation of physical and (or) chemical interactions during the cooperation of nanoscale elements that provide a significant improvement or the emergence of a set of qualitatively new (including previously unknown) mechanical, chemical, electrophysical, optical, thermophysical and other properties of these materials, determined by the manifestation of nanoscale factors.
A variety of nanoindustry products in the form of materials containing structural elements with nanometer dimensions, the presence of which provides a significant improvement or the appearance of qualitatively new mechanical, chemical, physical, biological and other properties determined by the manifestation of nanoscale factors.
The sizes of structural elements of nanomaterials range from 1 to 100 nm. The manifestation of quantum-size effects in nanoparticles leads to a sharp change in their main characteristics and properties. The introduction of nanomaterials means a qualitative leap in modern technology for producing practically important systems - the creation of complex devices, the sizes of which are in the range of sizes of supramolecular formations.
To obtain nanomaterials and nanosystems based on them, atomic and molecular design (methods of "atomic-molecular architecture") is used. Following nature, Nanotechnology asserts a new paradigm of all production activities "bottom-up" from individual atoms to the product, and not "top-down", like traditional technologies that cut off excess material from a massive workpiece. Nanotechnology is creating a new philosophy of the technosphere. The nanotechnological revolution will completely change all vital spheres of human activity and society.
The point is the physicochemical properties of the class of two-dimensional materials, which are paradoxical for the three-dimensional world. Thanks to the unique properties of its electronic system, graphene today allows discovering new and new fundamental effects, as well as demonstrating those phenomena that have long been predicted by theory and have been waiting in the wings. It was in work with graphene that scientists demonstrated such effects of quantum physics as the Klein paradox and the quantum Hall effect.
In the technological field associated with the production of graphene-containing ("enriched") materials, there is an understanding of technical processes. Their development and implementation is of great importance for ecology and energy. It even makes commercial sense. Graphene itself is still relatively expensive (over $ 100 / kg). But its amount, sufficient to improve the properties of the material by a factor of 10, sometimes requires no more than 0.5%, which adds to the cost of the product no more than a few dollars per kilogram. There are specially created national research institutes dedicated to the study of this material and its applications. There is a group of organizations involved in the production of graphene itself. There are companies producing graphene-based products, there are already more than fifty of them in the world.
In the technological field associated with the production of graphene-containing ("enriched") materials, there is an understanding of technical processes. Their development and implementation is of great importance for ecology and energy. It even makes commercial sense. Graphene itself is still relatively expensive (over $ 100 / kg). But its amount, sufficient to improve the properties of the material by a factor of 10, sometimes requires no more than 0.5%, which adds to the cost of the product no more than a few dollars per kilogram. There are specially created national research institutes dedicated to the study of this material and its applications. There is a group of organizations involved in the production of graphene itself. There are companies producing graphene-based products, there are already more than fifty of them in the world.
Teslar Research and Production Association is actively exploring the possibilities and methods of using two-dimensional 2D: graphene and other most modern and promising materials to improve the quality of life, protect human health, protect and restore the environment.
Modern materials play an important role in the field of ecology and energy.
Thanks to their unique properties and the ability to improve the properties of other materials by 10 or 200 times, the introduction of developments based on them will bring objects and technologies to a new level of resource efficiency. This contributes to the efforts of the world community to reduce anthropogenic emissions and slow the rate of climate change.
Thanks to their unique properties and the ability to improve the properties of other materials by 10 or 200 times, the introduction of developments based on them will bring objects and technologies to a new level of resource efficiency. This contributes to the efforts of the world community to reduce anthropogenic emissions and slow the rate of climate change.
Industry solutions
Teslar SIA conducts fundamental and applied research, as well as development work with the aim of creating new possible applications, environmentally friendly products, products, systems and technologies based on advanced developments and nanomaterials. Seeks to expand collaboration with research teams and all stakeholders.
The production of graphene-containing and other promising materials and products is organized for the ecological and technological modernization of a wide range of products and technologies. Among the actively developing areas of scientific and technical activities of Teslar SIA is the creation of graphene additives that significantly improve the properties of heat-conducting substrates and compounds, pastes, and glue.
Unique materials and developments, including two-dimensional technologies, have made it possible to unprecedentedly extend the service life of products and achieve the world's best indicators in a number of areas of human activity; for the first time to obtain safe and biologically adequate artificial lighting for humans; bring the energy efficiency of facilities to a new level; reduce emissions and energy costs; to make a breakthrough in high-precision agricultural technologies and expand the scope of city farming.
The production of graphene-containing and other promising materials and products is organized for the ecological and technological modernization of a wide range of products and technologies. Among the actively developing areas of scientific and technical activities of Teslar SIA is the creation of graphene additives that significantly improve the properties of heat-conducting substrates and compounds, pastes, and glue.
Unique materials and developments, including two-dimensional technologies, have made it possible to unprecedentedly extend the service life of products and achieve the world's best indicators in a number of areas of human activity; for the first time to obtain safe and biologically adequate artificial lighting for humans; bring the energy efficiency of facilities to a new level; reduce emissions and energy costs; to make a breakthrough in high-precision agricultural technologies and expand the scope of city farming.
Environmental and technological modernization leads to a decrease in energy consumption and anthropogenic emissions into the atmosphere, elimination of waste generation and a slowdown in the rate of climate change. Such developments contribute to the development of health-saving and resource-saving technologies, improving the quality of life of present and future generations.
Put to purchase nanomaterials
and the introduction of graphene technology
and the introduction of graphene technology
We will help you formulate a realistic technical assignment and implement a full R&D cycle on a modern research and production base, with the involvement of leading domestic specialists, guaranteeing the safety of confidential information and high quality results.
We are open for cooperation and are ready to advise you on the implementation of graphene and its derivatives in your business.
In this regard, we have expanded our own production facilities for the production of graphene oxide and invite individuals and teams from any industry to send their proposals on any convenient communication method for them.
We are open for cooperation and are ready to advise you on the implementation of graphene and its derivatives in your business.
In this regard, we have expanded our own production facilities for the production of graphene oxide and invite individuals and teams from any industry to send their proposals on any convenient communication method for them.
If you are interested in buying graphene or introducing graphene technologies, please contact us in any convenient way.
NOTHING WILL DISAPPEAR, BUT EVERYTHING IS TRANSFORMED. - TESLAR SIA
Quantum revolution in a circular economy
The only sensible way to deal with waste is to recycle it into useful, modern materials. A new word in waste management: recycling has been turned into a process of industrial production of high-quality innovative material - graphene, which is in demand in all areas of human activity and is of great importance for the ecology of the planet
100%
of waste can be neutralized and processed into nanomaterials
67%
Of technologies and materials used by humans can be significantly improved by using graphene
NANOMATERIALS IN PRODUCTS
Nanomaterials in our own production
Quantum technologies and nanomaterials in our own production on the example of lighting systems. Technology contributes to improving the quality of life of present and future generations. As well as the efforts of the world community to reduce anthropogenic emissions and slow down the rate of waste generation and climate change.
NANOMATERIALS IN PRODUCTS
The use of graphene
in the production of textiles and equipment
in the production of textiles and equipment
It is an ideal material for clothing. Manufacturers give a 100-year guarantee. The creation of smart textiles and various items of clothing using this material can make a person bulletproof, and the material can store an infinite amount of thermal energy. Graphene is able to retain heat. This makes the clothes practically a radiator that can be worn in the cold. It also conducts electricity, repels bacteria and dissipates excess body moisture. It is waterproof and breathable. In addition, its bacteriostatic, graphene membrane is also known as hypoallergenic and anti-static. Strong and wear-resistant carbon graphene makes products stronger, more wear-resistant, in comparison with the already familiar solutions. Graphene distributes impact force better than any other material. This allows for more durable protection and equipment, increasing safety.
Chemistry: a wide range of uses for this material, for example, it is already used to create hair dyes, in water filters, night vision contact lenses, the world's lightest wheelchair is made from it, and even condoms are produced.
The properties of graphene materials have an amazing effect on the properties of chemical products such as: Varnish (the hydrophobicity of graphene has a brilliant effect on the anti-corrosion properties of varnish), lubricants (the addition of graphene flakes gives great advantages in terms of the coefficient of friction reduction)
Tires (reduces drag and increases tire grip at the same time)
Filters (Using graphene foam structure as filter membranes - excellent adsorption properties)
Catalysis (Component of graphene with metals and metal oxides can be used for catalysis and photocatalysis)
Medicine: Thanks to the antibacterial properties of graphene oxide, it can be used in medical accessories such as bandages, gels, ointments, etc. Early studies show that applying graphene to medical stents, intramedullary rods and other implants leads to a greater likelihood of acceptance by the human body.
GRAPHENE WATER ULTRAFILTRATION MEMBRANE
Ultrafiltration membrane (waste water treatment, municipal water supply, seawater desalination).
The properties of graphene materials have an amazing effect on the properties of chemical products such as: Varnish (the hydrophobicity of graphene has a brilliant effect on the anti-corrosion properties of varnish), lubricants (the addition of graphene flakes gives great advantages in terms of the coefficient of friction reduction)
Tires (reduces drag and increases tire grip at the same time)
Filters (Using graphene foam structure as filter membranes - excellent adsorption properties)
Catalysis (Component of graphene with metals and metal oxides can be used for catalysis and photocatalysis)
Medicine: Thanks to the antibacterial properties of graphene oxide, it can be used in medical accessories such as bandages, gels, ointments, etc. Early studies show that applying graphene to medical stents, intramedullary rods and other implants leads to a greater likelihood of acceptance by the human body.
GRAPHENE WATER ULTRAFILTRATION MEMBRANE
Ultrafiltration membrane (waste water treatment, municipal water supply, seawater desalination).
Scientists predict nanotechnology in the 21st century will make the same revolution in the manipulation of matter as computers made in the manipulation of information in the 20th century, and their development will change the life of mankind more than the development of writing, a steam engine or electricity.
China in 2018 estimated the graphene market at $ 1.4 billion, and by 2020 it was estimated at more than $ 14 billion
The market for the graphene semiconductor industry alone, according to McKinsey for 2030, is estimated at $ 70 billion, and the market for related semiconductor technologies (data processing, wireless communications, consumer electronics) is estimated at $ 190 billion. The forecast does not cover other graphene-related technologies (sensors, neurointerfaces, energy and composite materials, water purification systems, etc.).
If we talk about names, then ACS MATERIAL, NANOGRAFI, Graphenea are the brothers of Graphene Supermarket.
Haydale along with Graphene 3D Lab produces graphene-modified materials for 3D printers.
Teslar SIA produces graphene, develops two-dimensional technologies and manufactures graphene-containing products.
If we talk about names, then ACS MATERIAL, NANOGRAFI, Graphenea are the brothers of Graphene Supermarket.
Haydale along with Graphene 3D Lab produces graphene-modified materials for 3D printers.
Teslar SIA produces graphene, develops two-dimensional technologies and manufactures graphene-containing products.
Large companies are also "in the subject": Xiaomi and Huawei are already using graphene in smartphones and headphones, Samsung and LG are working on its implementation in the batteries of their devices. Ford has announced the use of graphene for added sound insulation in its vehicles.
There is a real graphene boom in China. Energy companies open research laboratories for the use of graphene.
A beautiful example is the start of large-scale production of electrical cables from a copper-graphene composite, developed in the framework of cooperation between the Chinese and the Australian University (University of New South Wales). If successfully commercialized and replaced with existing cables, the development could reduce the Chinese industry's energy losses by Australia's annual consumption.
Many of them are socially significant.
For the user, this is the lowest operating cost. For the planet - reducing the level of anthropogenic emissions, eliminating waste and effectively rehabilitating the environment.
There is a real graphene boom in China. Energy companies open research laboratories for the use of graphene.
A beautiful example is the start of large-scale production of electrical cables from a copper-graphene composite, developed in the framework of cooperation between the Chinese and the Australian University (University of New South Wales). If successfully commercialized and replaced with existing cables, the development could reduce the Chinese industry's energy losses by Australia's annual consumption.
Many of them are socially significant.
For the user, this is the lowest operating cost. For the planet - reducing the level of anthropogenic emissions, eliminating waste and effectively rehabilitating the environment.
Nanopowder
The size of flat particles (flakes) is about 905 nm
The size of flat particles (flakes) is about 905 nm
It is relatively affordable and easy to find in many of the companies that sell it. This is confusing, however, as different companies offer products that vary in quality, price, shape, and many other parameters, making it difficult to choose a specific product.
At the request of the customer, we involve world-class experts in the quality assessment and are ready to provide the opinion of the world's leading laboratories in London, Israel, China, etc.
At the request of the customer, we involve world-class experts in the quality assessment and are ready to provide the opinion of the world's leading laboratories in London, Israel, China, etc.
If you are interested in buying graphene or introducing graphene technologies, please contact us in any convenient way.
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