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Manchester, United Kingdom
1-10 Employees
2019
Nanoplexus™ is a spin-out from the University of Manchester, founded in late 2019. We are driven by a diverse experience in advanced manufacturing techniques and material synthesis that allows us to apply materials into more demanding environments. This delivers on our goal of developing scalable and cost-effective clean energy infrastructures for a more sustainable future. NanoPlexus wins the Eli and Britt Harari Award for Graphene and 2D-Nanomaterials Enterprise.
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Featured
MXene - Nanoplexus
... MXene Ti3C2Tx ...
Port Washington, United States
1-10 Employees
Nano Research Elements is set up by a group of expert Nanotechnologists to concentrate on giving an answer for each mind boggling complex issue with the assistance of Nanotechnology products and applications. Nanomaterials innovation has the potential to address a number of today’s biggest scientific challenges, ranging from the need for more efficient alternative energy technologies, faster and flexible electronics, and improved disease diagnosis and treatment. Nanotechnologies - to be more particular: nanomaterials - are already used in numerous products and industrial applications. Our Nanotechnology Products and Application database as of now give an outline of how nanomaterials and nanostructure applications are utilized today industrial and commercial applications across industries. Nano Research Elements offer a huge collection of nanomaterials that navigate the Periodic Table including gold, silver, iron oxide, metal and metal composites, oxides, nitrides and ceramics.
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Featured
Vanadium Carbide MXene Powder
... Vanadium Carbide MXene Powder - ...
Hyderabad, India
251-500 Employees
2020
YAAVIK MATERIALS AND ENGINEERING PRIVATE LIMITED is a firm established with a vision of contributing to this new era of INNOVATIVE MATERIALS. All sorts of chemicals from laboratory to industrial grade, with high purity and efficiency. Scientific Instruments, Characterization setup, equipments and other accessories. Yaavik is a platform to bring new ideas and make it. Emerging technologies gives challenge not only at the engineering level but also at the deepest level of underlying materials.
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Featured
Ti3C2Tx MXene (multilayer nanoflakes)
... YAAVIK MATERIALS AND ENGG PVT LTD SUPPLIES BEST QUALITY OF Ti3C2Tx MXene (multilayer nanoflakes) from ACS materials IN INDIA. ...
Edmonton, Canada
11-50 Employees
2015
Nanochemazone is a high-tech enterprise focusing on research and development of Nanomaterials & Nanotechnology. Nanochemazone offers high-quality products of nanotechnology for research and development as well as for industrial applications. Nanochemazone is involved in all aspects of the business: manufacturing, research, and development, processing, supplying and marketing of nanoscale, microscale, and metal nanopowder products at Global Level. Nanochemazone products are available in pre-packaged catalog sizes, in semi-bulk and bulk quantities. Our goal is to provide high-quality nanomaterials products, services, or technical proposals. Nanochemazone® is a premium nanomaterials manufacturer and supplier of Nanomaterials, Alloy Nanopowders, Graphene, MXene, MAX Phase Powder, Graphdiyne Powder, MoS2, Black Phosphorous, Carbon Nanotubes, Metal-Organic Frameworks (MOFs) Nanodiamonds, Nanoparticles, Nanoceramics, Quantum Dots, Metal Nanopowders, Fullerenes, Nanowires, Nanorods, Alloy powders & Compound Nanoparticles, Magnetic nanopowders, NdFeB nanopowder, Micron Size powders, Metal, and Metal Oxide Dispersion, Nano- and Micro- Salts & Derivatives. We provide and customize all kinds of Metal and Metal Oxide nanopowders, rare earth elements, two dimensional (2D) nanomaterials, and crystals. Nanochemazone® also provides screen printed electrodes, screen printing inks, Silicon Wafers, Metal Foils, Platinum Coated Wafers, metal foams like Nickel Foam, Copper Foam, Alumunium Foam, Reticulated Vitreous Carbon Foam, etc.
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Featured
Ti2C MXene Powder
... Multilayer perchloro group MXene is available in all sizes to the range for research and Industrial Battery application. Buy pure Multilayer perchloro group MXene collection at low Price. ...
Champaign, United States
1-10 Employees
2010
ATSP Innovations was founded in 2010 at the University of Illinois at Urbana-Champaign (UIUC) Research Park. ATSP polymers offer ultra-high thermal stability, outstanding wear resistance, and revolutionary solid-state state bonding.
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Featured
ATSP
... New class of Biocompatible implant material: ATSP-MXene ...
Luoyang, China
51-100 Employees
2007
We produce our products and cooperate closely and steadily with well-known research institutions, universities, national laboratories and innovative corporate giants in nanomaterials research and development. We are committed to provide the highest quality products with the most reasonable price for our customers who are doing nanotech research and have formed a complete cycle of researching, manufacturing, marketing and after-sale servicing. Our products have been sold to many countries around the world. We are committed to provide the high quality products with the most reasonable price for our customers who are doing nanotech research and have formed a complete cycle of researching, manufacturing, marketing and after-sale servicing. Luoyang Advanced Material Co.,Ltd is a high-tech enterprise focusing on research and development of nanotechnology. It is the producer and supplier of nanoparticles, nanopowders, micron powders, 3D printing Powders, and graphene in small quantity for research and in bulk order for industry groups. Our expertise in the properties, applications and various manufacturing processes of advanced and engineered materials allows us to meet the needs of our customers. Luoyang Advanced Material Co.,Ltd is a high-tech enterprise focusing on research and development of advanced materials.
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Featured
focus on chemicals, nanoparticles and micron powders – focus on chemicals, nanoparticles and micron powders
... Two-dimensional Material Multilayer Mxene ...
Kyiv, Ukraine
1-10 Employees
2007
Our mission is the development, production and supply of MAX phases, two dimensional nanomaterials MXenes, porous and activated carbon materials, materials characterization, as well as design and manufacturing of equipment for MXene synthesis and nanostructured carbon production. Carbon Ukraine company is located in Kiev, Ukraine, and represented in the USA by MXene Nano Tech LLC and Nano Carbon Tech LLC in Poland. Carbon-Ukraine also provides experimental synthesis of different materials for research needs, including MAX phases Ti3AlC2, Ti2AlC, Ti3AlCN, V2AlC, Nb2AlC and others, MXenes Ti2C, Ti3C2, V2C and others - multillayered, delaminated in aqueous or solvent media, different surface functionalisaztion can be developed on the order as well. We are very glad to inform you that our laboratory in Kyiv is active and continues working on the synthesis of MAX phases and MXenes, now we synthesize the materials for all the orders and also have already some materials in stock. Whether you're creating new products or want to upgrade existing ones, we welcome your inquiries. We encourage you to learn more about the exciting possibilities we offer you, and we look forward to partnering with you to improve your product's performance. Our Kiev area research and manufacturing center is fully capable of developing and producing porous carbon materials and MXenes tailored to meet your needs. Due to many years of successful cooperation Carbon-Ukraine is official MXene licensed partner of Drexel University, USA, the initial inventor of these materials, allowing us manufacture MXenes and MXene products in different forms (for various applications) for research and educational purposes and supply them worldwide.
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Featured
Carbon-Ukraine - About Us
... MRC team visited 2nd international MXene conference "MXenes: Addressing Global Challenges with Innovation"at Drexel University, USA on Aug. 1-3, ...
Scottsdale, United States
11-50 Employees
2003
We work with ASU and other partner institutions to translate research into real-world impact. The 2023 Startup Challenge is now open to ASU startups formed in FY23! Seat at the Table (SEAT) strives to raise awareness and make technology transfer education, training, and opportunities accessible for all. Rapid licensing available for technologies to fight COVID-19 developed at ASU. ASU researchers working with SI submitted 301 invention disclosures, launched 21 new startups, and were named on 157 issued U.S. patents.
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Featured
Aligned Ti3C2Tx MXene for 3D Micropatterning via Additive Manufacturing - Skysong Innovations
... Aligned Ti3C2Tx MXene for 3D Micropatterning via Additive Manufacturing - Skysong ...
Kyoto, Japan
5001-10000 Employees
1945
The HORIBA Group of worldwide companies provides an extensive array of instruments and systems for applications ranging from automotive R&D, process and environmental monitoring, in-vitro medical diagnostics, semiconductor manufacturing and metrology, to a broad range of scientific R&D and QC measurements. HORIBA Automotive provides innovative applications and insights, advanced automotive validation and…. HORIBA Medical designs, develops and distributes worldwide, in vitro diagnostic systems mainly…. HORIBA Process and Environmental provides a wide range of technologies to measure air, water and…. HORIBA Semiconductor have developed a line-up of fluid control, vaporization, analytical equipment…. HORIBA Scientific offers 200 years of experience in developing high-performance scientific…. HORIBA water and liquid analysis technology is based on 75 years’ experience since the foundation of…. Since establishing HORIBA RADIO LABORATORY in Japan in 1945, HORIBA has grown as an R&D company and engaged in international operations, making the most of its experiences and encounters with people along the way.
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Featured
AFM Optical Platform - NanoRaman - HORIBA
... TERS Characterization of Single- to Few-Layer Ti₃C₂Tₓ MXene ...
Milan, Italy
1-10 Employees
2013
Continue reading "While Samsung announced their Summer Galaxy Unpacked Event for July 26, JerryRigEveryting Demolished Google's Pixel Fold" ». Continue reading "Apple was granted 56 patents today covering Backside Textured Glass for iPhone and Textured Bezels for iPad+ " ». Continue reading "Apple has reportedly pushed back their Apple Watch Ultra with an advanced microLED display until 2026" ». Continue reading "Nokia and Apple have signed a new Long-Term Patent Cross-License Agreement covering 5G Technologies+" ». Continue reading "Google Shut Down their AR Glasses Project to Focus on Delivering an Android Spin-Off OS to support their new XR Ecosystem Alliance" ».
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Featured
Patently Apple
... Future Tech: Korean Researches discuss Next-Gen Waterproof, Transparent OLED Displays using MXene ...
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Some interesting numbers and facts about the results you have just received for MXenes
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 13 |
| Amount of suitable service providers | 8 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1945 |
| Youngest suiting company | 2020 |
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MXenes are a class of two-dimensional (2D) nanomaterials composed of transition metal carbides, nitrides, or carbonitrides. These materials are synthesized through the selective etching of the A layer from their parent MAX phases, which are ternary carbides and nitrides with the general formula of M<sub>n+1</sub>AX<sub>n</sub>, where M is a transition metal, A is an A-group element (mostly IIIA and IVA, or groups 13 and 14), X is either carbon or nitrogen, and n = 1 to 3. The result is a structure with a unique combination of metallic conductivity and hydrophilic surfaces, which is not common in traditional 2D materials like graphene. MXenes stand out for their exceptional electrical conductivity, mechanical properties, and high surface area, making them highly applicable in a variety of fields. These include energy storage (such as supercapacitors and lithium-ion batteries), electromagnetic interference shielding, water purification, and even as sensors and catalysts. Their versatility and performance efficiency in these applications underscore MXenes' significant impact on advancing nanotechnology and materials science. The ability to tailor their surface chemistry through functionalization further expands their potential, enabling the development of custom solutions for specific technological challenges. This adaptability and efficacy position MXenes as a pivotal material in the ongoing evolution of nanoscale devices and sustainable technology solutions.
1. High Electrical Conductivity
MXenes exhibit remarkably high electrical conductivity, a property that makes them superior to many traditional materials used in electronics and energy storage. This feature is particularly beneficial for the development of advanced batteries and supercapacitors, where efficient electron transfer is crucial for performance.
2. Flexibility and Mechanical Strength
Despite their metallic conductivity, MXenes also offer exceptional flexibility and mechanical strength. This unique combination allows for their use in a variety of applications, from flexible electronics to protective coatings, without sacrificing durability or performance.
3. Chemical Versatility
The chemical structure of MXenes grants them a high degree of versatility, enabling them to be easily modified or combined with other materials to enhance their properties. This adaptability opens up a wide range of applications, including sensors, catalysts, and even biomedical devices, offering improvements over less versatile alternatives.
4. High Surface Area
MXenes possess a high surface area, which is beneficial for applications that require rapid and extensive interaction with other substances, such as energy storage and catalysis. This characteristic ensures more efficient processes compared to materials with lower surface areas, leading to enhanced performance in a variety of applications.
1. Purity Level
Ensure the supplier provides MXenes with a high purity level, as this affects the material's performance in applications.
2. Production Capacity
Consider the supplier's ability to meet your volume requirements without compromising quality.
3. Customization Options
Check if the supplier offers customization in terms of compositions and phases to fit specific application needs.
4. Quality Assurance
Look for suppliers with robust quality assurance processes, including certifications and testing reports.
5. Technical Support
Evaluate the level of technical support and consultation the supplier provides for integrating MXenes into your projects.
6. Cost Efficiency
While not compromising on quality, assess the cost-effectiveness of the supplier’s offerings to ensure they fit your budget.
7. Sustainability Practices
Consider suppliers that adhere to sustainable production practices, minimizing environmental impact.
MXenes, a class of two-dimensional materials, have found significant applications in various industries due to their unique properties. One prevalent use case is in the energy storage sector. These materials are employed in the construction of batteries and supercapacitors, where their high conductivity and large surface area contribute to improved charge storage capabilities. This advancement is particularly beneficial for businesses in renewable energy and electric vehicle manufacturing, where efficient energy storage is crucial. In the realm of electromagnetic interference (EMI) shielding, MXenes offer exceptional performance. Their metallic conductivity combined with high flexibility makes them ideal for creating thin films or coatings that protect electronic devices from electromagnetic interference. This application is invaluable for companies in the electronics sector, aiming to enhance the durability and performance of their products. Another significant application of MXenes is in water purification technologies. Thanks to their ability to remove contaminants from water, including heavy metals and organic molecules, MXenes are becoming a key component in advanced filtration systems. This capability is of particular interest to businesses in the environmental management and water treatment industries, where the demand for efficient and cost-effective purification methods is constantly growing. These use cases highlight the versatility of MXenes across different industrial sectors, underlining their potential to revolutionize business operations and products with their unique properties.
MXenes, a class of two-dimensional (2D) materials comprising transition metal carbides, nitrides, or carbonitrides, are currently estimated to be at a Technology Readiness Level (TRL) between 3 and 4. This assessment is based on their experimental proof of concept and validation in a laboratory environment but limited demonstration in real-world applications. The positioning at this TRL is primarily due to several technical challenges and the nascent stage of their development. Firstly, the synthesis of MXenes often involves hazardous chemicals and conditions, posing scalability and environmental challenges. Secondly, their susceptibility to oxidation limits their stability in ambient conditions, affecting the reproducibility and longevity of potential applications. Moreover, fully understanding and controlling the surface terminations and interlayer spacings, which are crucial for their electronic and mechanical properties, remain complex issues. Despite these challenges, MXenes exhibit promising characteristics, such as high conductivity, mechanical flexibility, and tunable surface chemistry, driving ongoing research to overcome the current technical barriers. Their potential applications in energy storage, sensing, photonic, and electronic devices underscore the importance of advancing their TRL through focused research and development efforts aimed at addressing these technical hurdles.
In the Short-Term, MXenes are set to revolutionize the realm of energy storage devices. The immediate focus is on enhancing the capabilities of lithium-ion batteries, aiming for faster charging times and greater power density. Research is also underway to integrate MXenes into supercapacitors, which could significantly improve their storage capacity and lifecycle, pushing these advancements into consumer electronics and electric vehicles within the next few years. Mid-Term developments are expected to extend MXenes' applications into environmental remediation and healthcare. Innovations in water purification technologies will likely emerge, leveraging MXenes' unique properties to filter and remove pollutants more efficiently than current systems. Concurrently, the biocompatibility of MXenes is anticipated to foster breakthroughs in medical diagnostics, drug delivery, and tissue engineering, offering non-invasive solutions for monitoring and treating a variety of health conditions. Looking towards the Long-Term, the potential of MXenes in the field of wearable technology and IoT devices is profound. The focus will be on creating ultra-thin, flexible electronics that seamlessly integrate into everyday objects and environments, providing unprecedented levels of connectivity and functionality. Advances in this area could lead to the development of smart textiles capable of monitoring health indicators in real-time or environments that dynamically respond to human presence and needs, marking a significant leap towards the realization of truly smart living spaces.
Some interesting questions that has been asked about the results you have just received for MXenes
What are related technologies to MXenes?
Based on our calculations related technologies to MXenes are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials
Which industries are mostly working on MXenes?
The most represented industries which are working in MXenes are Manufacturing, Science and Engineering, Health Care, Professional Services, Retail Trade
How does ensun find these MXenes Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
