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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
Ni-Coated Multi-Walled Carbon Nanotubes (OD: >50nm)
... YAAVIK MATERIALS SUPPLIES BEST QUALITY OF Ni-Coated Multi-Walled Carbon Nanotubes (OD: >50nm) from ACS materials IN INDIA. ...
Tallinn, Estonia
1-10 Employees
2021
Currently, our company provide its customers with nanostructured (1 nm to 100 nm) and ultrafine-structured (0.1 um to 5 um) powder materials & gives consultation in following areas such as ;.
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(-OH) Functionalized Multi Walled Carbon Nanotubes
... (-OH) Functionalized Multi Walled Carbon Nanotubes, Purity: > 96%, Outside Diameter: 4-16 nm - Nano Powder Online ...
11-50 Employees
2009
We specialise in materials and equipment for fabricating and testing high-performance research devices. Backed by decades of experience, our mission is to pave the way to discovery by empowering the international scientific community with the tools you need to accelerate your research. From teaching to rapid prototyping and scale-up processing, we equip laboratories around the world with dependable products at accessible prices. Class AAA over a 15 mm diameter circular area at an affordable price. Long-term and low cost LED characterisation and lifetime measurement system.
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Featured
Multi-Walled Carbon Nanotubes
... High purity multi-walled carbon nanotubes in powder form. For applications to improve mechanical or electrical properties of material. Fast shipping available. ...
Cambridge, United States
11-50 Employees
We are passionate about delivering top-notch products and services that exceed your expectations. Nanotechnology team in UniTechLink provides research services and and consultant in the area of Nanotechnology, nanoscience and nanomaterials. Biomedical Engineering team in UniTechLink provides research services and and consultant in the area of biomedicine, drug delivery, biosensors, and biomaterials. The UniTechLink microfluidics team offers consulting and research services in the fields of microfabrication and microfluidics. We are based in the United States and Canada and have several offices around the world. A researcher is the one who carries out this type of research. By exploring each category, you can discover how our wide range of services and products can benefit you and meet your unique needs. We take pride in providing exceptional products and services that go above and beyond.
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Featured
Multi Walled Carbon Nanotubes (MWCNTs)
... The Multi Walled Carbon Nanotubes Powder is a highly versatile and high-quality research-grade product that can be used in various applications, including catalysts, drug delivery, sensors, energy conversion, and reinforcements in composites. The product has a diameter range of 5-15nm, a ...
India
1-10 Employees
2017
We are expertise to develop customized materials as per requirement. We are suppliers of High Quality nano powder which are sold at a much lesser price than the other providers in the market. We are the global supplier and fast delivery at reasonable price provide service in Jharkhand, Mumbai, Karnataka, Bangalore, Hyderabad, Ahmedabad, Chennai, Kolkata, Delhi, Ranchi, Pune, Nashik, Patna, Gujarat and Bihar. Platonic Nanotech Pvt.Ltd uses its proprietary “Bottom Up” process for the production of high quality graphene. We at Platonic are dedicated to produce Graphene and Graphene Based Products of highest standard and make it available for a price much cheaper that the current market trends. Platonic Nanotech is a 2nd generation nanomaterials company engaged in research, development, and sale of the highest quality, most advanced form of graphene: Platonic Nanotech. Our manufacturing methods are designed in every phase to be massively scalable to meet the requirements of our largest focus industries that produce products such as cement and asphalt concretes, composites, protective coatings. Our high-quality products are available for a price much lower than our competitors.
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Featured
Multi Walled Carbon Nanotubes
... Multi Walled Carbon Nanotubes – Platonic Nano ...
Singapore
1-10 Employees
2016
Get discounts for your purchases through our Discount Coupons, exclusively through our mailing list. Join our mailing list to get weekly updates of the items we have sourced for our customers!
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Multi Walled Carbon Nanotube Arrays
... Supply battery research material | Multi Walled Carbon Nanotube Arrays – ANR Technologies Pte ...
Fremont, United States
NTherma invented a breakthrough & scalable production technology to manufacture Graphene Molecular Wires TM and other carbon nanomaterials with precise structural specifications, high quality, and low cost creating game-changing products for Energy Storage, Coatings, Thermal Management, and Lubrication markets. NTherma’s technology is comprised of both equipment and process that produce multi-walled CNTs and Graphene without the need for a purification process, therefore cutting costs significantly. Our process enables greater control of crystallinity and structural dimension of the carbon nanomaterials. Various carbon structures exist at the nanoscale with various properties. Structural variations in these allotropes of carbons are many, ranging from diamond, graphite, carbon blacks (amorphous carbons), carbon nanotubes, graphene, fullerene (ball structure), carbon fibers etc.
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NTherma Corporation - Carbon Nanotubes & Graphene Producer
... NTherma is a producer of Multi-walled Carbon Nanotubes (CNTs) and Graphene (nanoplatelets and nanoribbons). ...
Singapore
1-10 Employees
2021
It is also not profitable to recycle plastics because the value of products is too low to cover the process costs. An innovative thermal process that goes beyond conventional chemical recycling into oil. The process transforms plastic waste into products with higher value, such as hydrogen and solid carbon. The technology supports circularity as the products from plastic waste displace those made from newly mined resources. Hydrogen produced by the process is a strategic fuel for the upcoming energy transition needed to achieve net zero targets. The production of solid carbon and low-carbon hydrogen not only makes plastic waste recycling economically feasible but also positions it as a strong contender among other advanced technologies.
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MWCNTs, functionalized, 10-30 nm, low metal content
... High purity, functionalized multi-walled carbon nanotubes, outer diameter 10-30 nm, metal content < 0.24 wt.% ...
Town of Islip, United States
1-10 Employees
2009
We produce over 90 R&D products including graphene oxide , graphene nanoplatelets (GNPs), CVD graphene, and conductive epoxies. The high quality of our products starts with the combined decades of experience by our scientific and technical team in graphene technology and related materials in both academic and commercial settings. As a result, we can provide consistent graphene, graphene related, and epoxy products in packaged units, volume orders, and bulk quantities. In addition, we offer custom development of advanced materials and on-demand R&D based on customers’ needs. Our production and QC facility is located in Ronkonkoma, NY. Graphene Supermarket’s research team operates within a state-of-the-art analytical and materials testing laboratory to perform the certification of raw materials used for production and quality testing for the end-product formulations and composites. Our state-of-the-art chemical reactors are designated for graphene oxide (GO) production. GO is offered in R&D quantities in the form of aqueous dispersions, pastes, dried and reduced powders, and aerogels.
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Featured
Multi-Walled Carbon Nanotube Powder, 100 grams
... Multi-Walled Carbon Nanotubes, 100 Grams Properties: Diameter: 50-85 nm Length: 10-15 micrometers Nitrogen Surface Area: 60-90 m2/g Volume Resistivity: 2i<<5x10-4 Ω⋅cm Carbon Content: >94% SEM Image of MWCNT Powder Applications: Composite Materials Conductive Dispersions ...
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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Multi-Walled Carbon Nanotubes
... Multi-Walled Carbon Nanotubes - ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Multi-Walled Carbon Nanotube
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 14 |
| Amount of suitable service providers | 10 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 2009 |
| Youngest suiting company | 2021 |
A multi-walled carbon nanotube (MWCNT) comprises multiple layers of graphene sheets arranged in a concentric cylinder, showcasing a unique structure that distinguishes it from single-walled carbon nanotubes. These nanotubes are renowned for their exceptional strength, flexibility, and electrical conductivity, which make them highly valuable in various technological applications. In the realm of electronics, MWCNTs are pivotal in developing advanced components, such as transistors and sensors, due to their superior electron mobility. Furthermore, their remarkable mechanical properties are exploited in the creation of new composite materials that are both lighter and stronger than current alternatives, offering significant advancements in aerospace, automotive, and construction industries. The thermal conductivity of MWCNTs also enables innovative solutions in heat management applications, crucial for electronic devices and energy systems. Their multifunctional characteristics have paved the way for breakthroughs in nanotechnology, promising a future where materials are not only more efficient but also more durable and adaptable to varying conditions. As research and development in this field continue to evolve, the potential applications of multi-walled carbon nanotubes are expanding, heralding a new era of material science that could revolutionize multiple sectors.
1. Enhanced Strength and Durability
Multi-Walled Carbon Nanotubes (MWCNTs) exhibit exceptional strength and durability, surpassing traditional materials like steel in tensile strength. Their unique layered structure provides remarkable resilience and resistance to physical stresses, making them ideal for applications requiring longevity and reliability.
2. Superior Electrical Conductivity
MWCNTs offer superior electrical conductivity, which is essential in the development of advanced electronic devices. Their ability to conduct electricity more efficiently than copper makes them a preferred choice for integrating into circuits and components where minimizing energy loss is critical.
3. High Thermal Conductivity
With high thermal conductivity, MWCNTs are perfect for applications requiring efficient heat dissipation. This property is particularly beneficial in electronics and materials engineering, where managing thermal performance is crucial to system stability and functionality.
4. Flexibility in Applications
The versatility of MWCNTs allows for their integration into a wide range of products, from advanced composites to electronic components. Their adaptable nature enables the development of innovative solutions across various industries, including aerospace, automotive, and energy storage.
While evaluating the different suppliers make sure to check the following criteria:
1. Purity Levels
Check for the purity level of the Multi-Walled Carbon Nanotubes (MWCNTs), as it significantly impacts their performance in various applications. The higher the purity, the better the quality.
2. Production Methods
Understand the production method used by the supplier. The method (Chemical Vapor Deposition, Arc Discharge, etc.) affects the structural characteristics and quality of the MWCNTs.
3. Diameter and Length Distribution
The diameter and length of MWCNTs are crucial for their functionality in specific applications. Ensure the supplier can provide MWCNTs that meet your requirements.
4. Functionalization Options
Some applications require functionalized MWCNTs for enhanced dispersion in solvents or matrices. Verify if the supplier offers functionalization services and the types available.
5. Supply Capacity
Confirm the supplier's ability to meet your demand, considering both current and future needs. Consistent supply capacity is vital for long-term projects.
6. Cost-effectiveness
While quality is paramount, the cost also plays a significant role. Assess the supplier's pricing in relation to the product quality and supply capabilities.
7. Compliance and Certifications
Ensure the supplier complies with relevant industry standards and holds certifications that testify to their product's quality and safety.
Multi-walled carbon nanotubes (MWCNTs) have become pivotal in the realm of advanced materials, thanks to their unique properties, including high tensile strength and electrical conductivity. In the electronics industry, they are instrumental in creating more efficient and durable conductive films, essential for touch screens and flexible electronics. This application leverages the MWCNTs' exceptional conductivity and flexibility, enabling the production of devices that are not only more reliable but also can withstand bending and stretching. In the energy sector, MWCNTs are revolutionizing the way we think about energy storage. They are being used to enhance the performance of lithium-ion batteries by serving as conductive additives. This improvement is critical for electric vehicles (EVs) and portable electronics, where battery life and efficiency are paramount. The incorporation of MWCNTs in battery electrodes significantly increases the electrical conductivity, which in turn, boosts the battery's charge-discharge rates and overall capacity. Furthermore, the aerospace industry benefits from the integration of MWCNTs into composite materials. These composites are utilized in the manufacturing of aircraft and spacecraft components, where strength-to-weight ratio is critical. The addition of MWCNTs significantly improves the mechanical properties of these composites, including their resistance to impact, fatigue, and cracks, thus enhancing the safety and longevity of aerospace structures. Each of these use cases demonstrates the versatility and transformative potential of multi-walled carbon nanotubes across different B2B sectors, underscoring their role in driving innovation and efficiency in industrial applications.
Multi-Walled Carbon Nanotubes (MWCNTs) are currently positioned at various Technology Readiness Levels (TRLs), primarily between TRL 4 to TRL 6, depending on the application and the progress in addressing their integration challenges. This variance in TRLs stems from the fact that MWCNTs have successfully transitioned from basic principles observed and applied in controlled environments (TRL 3) to small scale prototype demonstration in a laboratory environment (TRL 4). Further advancements have enabled their integration into systems for validation in relevant environments (TRL 5), and in some cases, demonstration in operational environments (TRL 6). The key technical reasons influencing their current TRL include the complexity of consistently producing MWCNTs with uniform properties, challenges in dispersing them effectively in various matrices without compromising their structural integrity, and the need for better understanding and control of their interactions with other materials at the nanoscale. Despite these challenges, significant progress in enhancing the scalability of their production processes, improving dispersion techniques, and deepening the understanding of their physical and chemical properties has been made, driving their gradual progression along the TRL scale. However, for MWCNTs to advance to higher TRLs, focused efforts on overcoming the existing technical barriers and demonstrating their reliability and effectiveness in full-scale operational environments are essential.
In the short-term, developments in multi-walled carbon nanotube (MWCNT) technology are anticipated to focus on enhancing production efficiency and purity. Efforts are underway to reduce the costs associated with the manufacturing process while increasing the yield of high-quality MWCNTs. This phase is critical for making MWCNTs more accessible for various applications, including electronics and composite materials, where their exceptional strength and electrical conductivity can be leveraged. The mid-term phase is expected to see MWCNTs integrated into a wider array of commercial products, particularly in the energy sector. Innovations such as MWCNT-infused batteries and supercapacitors will emerge, offering significantly improved energy storage capabilities. This period will also witness advancements in the use of MWCNTs in the development of flexible and wearable electronics, driven by their unique mechanical properties and the ongoing miniaturization of electronic devices. Looking long-term, the application of MWCNTs is poised to revolutionize fields such as medicine and environmental technology. Breakthroughs in drug delivery systems utilizing MWCNTs for targeted therapy are anticipated, alongside the deployment of MWCNT-based filters for water purification and air filtration. These applications will benefit from the nanotubes' high surface area and chemical stability, showcasing the material's potential in addressing critical global challenges.
