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... EPIC Advanced Materials manufactures boron nitride nanotubes, ultra high temperature ceramics and develops custom nanomaterial solutions to solve application specific problems. ...
Newport News, United States
1-10 Employees
2010
BNNT Materials is the world’s leading producer of strong, flexible nanoscale ceramic fibers – known as boron nitride nanotubes (BNNT) or white graphene nanotubes – that have a wide range of extremely promising and highly profitable industrial applications. Both the technology and the team of BNNT Materials was spun out of NASA and US Department of Energy (DOE) national labs. Tom Henneberg, CEO, co-founded and helped grow Boeing’s new Ventures team and a cleantech IPO; McKinsey strategy consultant; Navy SEAL officer. World-leading expertise in lasers and particle accelerators from four decades at US National Labs and multiple foreign labs.
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... Boron Nitride Nanotubes ...
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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Boron Nitride Nanotubes
... Boron Nitride Nanotubes - ...
Boisbriand, Canada
1-10 Employees
2007
NanoIntegris is the world’s leading supplier of High Purity, Semiconducting, and Metallic Solutions. Our mission is to drive progress in nanoscience and technology by providing our partners and customers with carbon nanotubes, graphene and nanomaterials that deliver breakthrough results. We are committed to raising the bar on industry standards for quality control, material characterization, and customer support. Goulet serves as President of Raymor Industries and its affiliates (including NanoIntegris Technologies) with over 25 years of corporate experience in Canada and the United States. Professor Mark Hersam is a founder of NanoIntegris and serves as the primary technical advisor. Jens Kroeger is the CTO of Raymor and NanoIntegris. Jens Kroeger is a member of a CSA Technical Committee developing the ISO standard for nanomaterials safety datasheets and the Regulatory Cooperation Council aligning the Canadian and American nanomaterials regulations.
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About our Semiconducting Inks, Single-Walled Carbon Nanotubes, and Nanomaterials - NanoIntegris
... Boron Nitride Nanotubes ...
Lancaster, United Kingdom
11-50 Employees
1987
We are in essence a ‘One Stop Shop.’ As well as warehousing your books in our secure facility, our marketing team produce subject targeted sales material and apply social media as a tool to promote our publishers’ titles. Gazelle Book Services is a book distribution company that offers publishers the opportunity to increase their sales in the UK and throughout Europe. In recent times Lancaster is also well-known for its University, founded in 1964 and one of the top Universities in the country with students attending from around the world. The book distribution business is constantly changing and we are well positioned to adapt to these changes. Continued focus on sourcing personnel that will both compliment and add further value to the Gazelle brand, to actively look to extend our network of sales and to invest in additional channels and new ideas that would benefit us, our publishers and our clients. Receive information on our latest titles and offers.
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Laser-Assisted Deposition of Boron Nitride Thin Films & Nanotubes — Gazelle Book Services Ltd
... Laser-Assisted Deposition of Boron Nitride Thin Films & Nanotubes By (author): Armando Luches, By (author): Anna Paola Caricato Published by Nova Science Publishers, Inc (US) In Stock £52.99 | / ...
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Some interesting numbers and facts about the results you have just received for Boron Nitride Nanotube
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 5 |
| Amount of suitable service providers | 3 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1987 |
| Youngest suiting company | 2021 |
Boron Nitride Nanotubes (BNNTs) are cylindrical nanostructures made up of boron and nitrogen atoms, closely resembling the carbon-based nanotubes in morphology but exhibiting distinct physical and chemical properties due to their different atomic composition. These nanotubes are characterized by their exceptional thermal conductivity, electrical insulation properties, and chemical stability, making them highly valuable in various technological applications. The unique combination of properties allows BNNTs to operate efficiently under extreme conditions of temperature and pressure, which is crucial for their use in aerospace and nanoelectronics industries. Moreover, their high thermal stability and resistance to oxidation make them ideal candidates for protective coatings in aerospace components, while their electrical insulation capabilities are beneficial in the development of nanoelectronic devices. Additionally, the biocompatibility of BNNTs opens up promising avenues in medical research, particularly in drug delivery systems and cancer therapy, where their ability to be functionalized can lead to targeted treatment delivery with minimal side effects. The versatility and superior properties of BNNTs underscore their significant impact across multiple fields, driving advancements in technology and contributing to the development of innovative solutions to complex challenges.
1. High Thermal Conductivity
Boron Nitride Nanotubes (BNNTs) exhibit exceptionally high thermal conductivity. This property makes them superior to other materials in applications requiring rapid heat dissipation, such as in electronic devices or aerospace components. Their ability to efficiently manage heat contributes to longer lifespan and reliability of the products they are used in.
2. Electrical Insulation
Despite their high thermal conductivity, BNNTs offer excellent electrical insulation. This characteristic is crucial in the development of electronic components where electrical conductivity needs to be strictly controlled. Their use ensures that devices can operate safely and effectively without the risk of electrical interference or short-circuiting.
3. Chemical Stability
BNNTs are chemically stable and resistant to most corrosive environments. This stability allows them to be used in a wide range of applications, including those exposed to harsh chemicals or extreme conditions, without degradation. Their durability under such conditions surpasses that of many alternative materials.
4. Mechanical Strength
The mechanical strength of BNNTs is outstanding, making them an ideal choice for reinforcing materials in the aerospace, automotive, and defense industries. Their strength-to-weight ratio is particularly advantageous, offering enhanced performance without adding significant weight.
1. Purity Level
Ensure the supplier can provide Boron Nitride Nanotubes (BNNTs) with high purity levels, as this significantly impacts their performance in various applications.
2. Production Capacity
Evaluate their ability to meet your quantity requirements without compromising quality, especially for large-scale or ongoing projects.
3. Customization Options
Check if the supplier offers customization in terms of BNNT dimensions and properties to suit specific application needs.
4. Cost-Effectiveness
Consider the pricing of the BNNTs in relation to their quality and the supplier's ability to offer competitive rates for bulk purchases.
5. Technical Support
The availability of knowledgeable technical support is crucial for addressing any queries or issues related to the application of BNNTs.
6. Delivery Timelines
Ensure the supplier has a reliable track record for timely deliveries, as delays can significantly impact project timelines.
7. Quality Certifications
Look for suppliers with recognized quality certifications, which attest to their commitment to maintaining high standards in their products and processes.
Boron Nitride Nanotubes (BNNTs) find extensive application in the aerospace industry due to their remarkable thermal stability and mechanical strength. These attributes make BNNTs ideal for reinforcing composite materials used in aircraft and spacecraft structures, enhancing durability while maintaining lightweight characteristics crucial for fuel efficiency and payload capacity. In the field of electronics, BNNTs contribute significantly to the development of next-generation electronic devices. Their excellent electrical insulation properties combined with high thermal conductivity allow for the creation of components that can withstand extreme temperatures while preventing electrical interference, a critical factor in the miniaturization and performance enhancement of electronic circuits. The healthcare sector also benefits from BNNTs, particularly in drug delivery systems and medical devices. BNNTs' biocompatibility and high surface area enable them to carry therapeutic agents directly to targeted cells with minimal toxicity. This property is pivotal in developing treatments for diseases like cancer, where targeted delivery can significantly improve treatment efficacy and reduce side effects. Furthermore, BNNTs are instrumental in the energy industry, specifically in lithium-ion batteries and supercapacitors. Their unique structure and properties contribute to increased electrical conductivity and charge storage capacity, leading to the development of energy storage systems with longer lifespans and higher efficiency, a crucial advancement for renewable energy technologies and electric vehicles.
Boron Nitride Nanotubes (BNNTs), renowned for their exceptional mechanical, thermal, and electrical properties, currently reside at a Technology Readiness Level (TRL) of 4. This classification indicates that these nanotubes have surpassed basic research stages, with their fundamental principles observed and reported, transitioning into the validation phase in a laboratory environment. The positioning at TRL 4 stems from technical challenges that include the complexity of synthesizing BNNTs with consistent quality and the difficulty in scaling up production processes to meet industrial demands. Despite their potential for revolutionizing materials science, especially in applications requiring high thermal conductivity, electrical insulation, and mechanical strength, the synthesis of BNNTs involves high-temperature processes and the use of boron and nitrogen sources, which currently lack efficiency and cost-effectiveness for mass production. Furthermore, the integration of BNNTs into composite materials or devices necessitates advanced functionalization techniques, which are still under development. These technical hurdles are pivotal in defining the current TRL of BNNTs, signifying a stage where the technology is proven in the lab but requires further innovation and optimization before it is ready for commercialization and wider application.
In the short-term, advancements in Boron Nitride Nanotube (BNNT) technology are poised to revolutionize material science. Scientists are focusing on enhancing the production methods to increase yield and decrease costs, making BNNTs more accessible for research and industrial applications. Immediate applications include usage in composite materials for aerospace, offering improved strength and thermal properties. Mid-term developments will likely see BNNTs integrated into the semiconductor industry. Ongoing research aims to leverage their electrical insulation properties and high thermal conductivity for use in electronic devices. This phase will be marked by the creation of prototypes demonstrating BNNTs' potential in enhancing the performance and miniaturization of electronic components, addressing overheating issues prevalent in current technologies. Looking long-term, the horizon for BNNT technology extends into the biomedical field and beyond. Innovations are expected to lead to breakthroughs in drug delivery systems, with BNNTs acting as carriers for targeted cancer therapy due to their biocompatibility and ability to enter cells. Furthermore, their unique properties may pave the way for advancements in regenerative medicine, such as nerve and tissue engineering, offering new hope for treatments of various medical conditions.
