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Saskatoon, Canada
1-10 Employees
2007
Cellulose is the world's most abundant naturally occurring polymer.
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Featured
WE MAKE CELLULOSE NANOCRYSTALS
... We make cellulose nanocrystals. Visit the site to learn more about the technology and to purchase product. ...
Montreal, Canada
11-50 Employees
Anomera’s award-winning sustainable processes are harmonized with the principles of green chemistry and engineering. Anomera manufactures carboxylated Cellulose Nanocrystals (CNC) in a patented eco-friendly method that delivers a high performance nanomaterial. Founded in 2016 by a group of McGill University scientists,Anomera developed and patented its innovation to produce carboxylated cellulose nanocrystals (CNC) from FSC® certified renewable forest industry resources like wood pulp and wood waste. The company’s patented CNC product, DextraCel®, is an advanced, environmentally friendly material that will significantly benefit multiple industries. The many uses of DextraCel® will increase the performance and durability of numerous products or replace petrochemical polluting ingredients with our biodegradable, green material. This platform product is creating new opportunities for multi-billion dollar markets such as concrete, polymer composites, coatings, pigments, agriculture, and for human wellness in pharma and life sciences.
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Featured
8Kg of Cellulose Nanocrystals as 5 – 7 wt% DextraCel® Suspension (120-160 L) – Anomera
... Anomera manufactures carboxylated Cellulose Nanocrystals (CNC) in a patented eco- friendly method that delivers a superior nanomaterial. This platform product is creating new opportunities for the multi-billion dollar markets for the industries of concrete, polymer composites, coatings, ...
Podcerkev, Slovenia
1-10 Employees
2009
Cellulose nanocrystals offer new possibilities for endowing improvement in cementitious composites by improving the mechanical properties. Different preparation methods create different final products, thereby producing nanocomposites with different inherent mechanical, thermal, and barrier properties. These results can provide information on how nanofillers such as CNCs can alter the properties of tissue scaffolds through the chemical properties and interactions they provide. A number of these core properties of nanocrystacell which make it beneficial to the development of new electronic applications. Because of the excellent physical properties of NC materials as well as the rapidly increasing demands on renewable materials based energy devices, enormous research efforts have been devoted to the NC-based conductive materials and energy devices. This paper is a comprehensive review focusing on the recent progress of fabricating conductive NC materials and the energy devices, including supercapacitors, lithium ion batteries and solar cells.
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Nanocrystalline cellulose is renewable and biodegradable
... is the world leader in the commercial production of Cellulose NanoCrystals (CNC). Produced from the tree cellulose, CNC is abundant, renewable and biodegradable. ...
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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Graphene Sheet, Size: 10 cm x 10 cm, Thickness: 35 µm, Highly Conductive - Nano Powder Online Buy
... Cellulose Nanocrystal (Nanocrystalline Cellulose,CNC) ...
Montreal, Canada
11-50 Employees
2010
CelluForce produces cellulose nanocrystals and cellulose nanocrystals formulated products. We are pioneers in this field and we lead the way in both scale, quality and diversity of products to help manufacturers around the world create better and more sustainable products. Just like our products, a little can make a big difference. We are a young and dynamic company with a great workforce that strives to continuously improve our products and processes to satisfy the most demanding customers and applications. CelluForce is the largest producer of cellulose nanocrystals in the world with a production capacity of 300 dried metric tonnes per year. CelluForce’s origin can be traced back to a long history of research, with several significant milestones along the way. Today, CelluForce sells cellulose nanocrystals in various products around the world and in multiple applications such as completion fluids, cosmetics, rubber products, 3D printing, hydroalcoholic gels, paints and coatings. We are efficient at listening and responding to queries.
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Nanocellulose & Nanocrystalline Cellulose Supplier | CelluForce
... CelluForce is the leading supplier of nanocellulose, nanocrystalline cellulose and cellulose nanocrystals used in formulations to create better products. ...
Johannesburg, South Africa
1-10 Employees
2007
The Directors of SabiNano boast of extensive know-how and professional knowledge in the development and application of carbon nanomaterials (e.g., multiwalled CNTs, doped CNTs, graphene, graphene oxide, carbon spheres) and diverse forms of other nanostructured materials (e.g., nanocellulose, electrospun nanofibers, nano-titanium dioxide, etc) with a wide range of dimensions (shapes and sizes). SabiNano’s offices and manufacturing facilities and laboratories are currently located inside Mintek* in Strijdom Park, Randburg, Johannesburg, South Africa. Our vision is to create new wealth through the manufacturing and supply of high-quality carbon-based nanomaterials and speciality chemicals/products, technologies, and services in Africa and beyond, creating thousands of sustainable employment opportunities. Our mission is to be a leading producer and supplier of high-quality carbon nanomaterials (e.g. SabiNano consists of a growing team of professionals that is committed to utilizing its expertise to add value to the attainment of the company’s vision and mission through the execution of different roles that comprise of management, technical, and advisory. SabiNano’s directors are well-versed in the research and development of carbon-based nanomaterials for research and industrial applications which enables them to seamlessly contribute to innovation by harnessing nanotechnology. We also provide nanotech laboratory analytical services for a wide range of industries including chemicals, energy, automobile, coatings, water/wastewater treatment, advanced materials, mining, electronics, amongst others. The company was founded in 2008 but officially became fully operational in 2018 with support from the Industrial Development Corporation (IDC).
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Lanthanum Calcium Manganate (La0.7Ca0.3MnO3) - Sabinano
... Cellulose Nanocrystal ...
Charnwood, United Kingdom
1001-5000 Employees
1909
Loughborough University is somewhere anyone can realise their full potential. The atmosphere and team spirit on campus inspire and empower people to achieve extraordinary things. This progressive and ambitious attitude is reflected in the success we achieve, as one of the top-performing universities in the country. Loughborough University is also a welcoming place where staff and students should feel they can be themselves. Across everything we do, we are working together to create a better future, for everyone.
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EPSRC DTP | Loughborough Doctoral College | Loughborough University
... Supramolecular Interactions on Nanocrystals (eg Cellulose) to Improve Mechanical Properties of ...
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 Cellulose Nanocrystal
Country with most fitting companies | Canada |
Amount of fitting manufacturers | 6 |
Amount of suitable service providers | 5 |
Average amount of employees | 11-50 |
Oldest suiting company | 1909 |
Youngest suiting company | 2021 |
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Cellulose nanocrystals (CNCs) are nano-sized particles extracted from cellulose, the most abundant natural polymer on Earth. These particles are characterized by their high strength, stiffness, and unique optical properties, making them an ideal material for a wide range of applications. CNCs are obtained through the acid hydrolysis of cellulose sources, which removes the amorphous regions of cellulose, leaving behind the crystalline parts. These crystalline parts have dimensions typically in the range of 100 to 250 nm in length and 5 to 20 nm in width. The high aspect ratio, combined with their biodegradability and low toxicity, positions cellulose nanocrystals as a sustainable alternative to conventional petroleum-based materials. Within their respective fields, CNCs have been explored for their potential in reinforcing polymers, creating advanced composites, and even in the field of electronics for their ability to form electrically conductive networks. Moreover, their inherent biocompatibility makes them promising for biomedical applications, such as drug delivery systems and scaffold materials for tissue engineering. The unique optical properties of CNCs, including their ability to reflect circularly polarized light, open up possibilities in the development of optoelectronic devices. The versatility and sustainability of cellulose nanocrystals signify a shift towards more environmentally-friendly materials in various industries, underlining their significant role and impact in advancing materials science and technology.
1. Enhanced Strength and Lightweight
Cellulose Nanocrystal (CNC) stands out for its remarkable strength-to-weight ratio, surpassing traditional materials like metals and some plastics. This characteristic makes it ideal for applications requiring lightweight components without sacrificing durability, such as in aerospace and automotive industries.
2. Biodegradability
Unlike many synthetic materials, CNC is biodegradable, aligning with growing environmental sustainability efforts. Its natural decomposition process reduces waste and minimizes ecological footprints, offering a greener alternative for industries looking to enhance their eco-friendly practices.
3. Abundant Raw Material
Derived from cellulose, the most abundant organic polymer on Earth, CNC benefits from a virtually limitless and renewable raw material source. This abundance ensures a stable, cost-effective supply chain compared to materials that rely on finite resources, making it a sustainable choice for long-term applications.
4. Non-Toxicity
Safety is paramount in material selection, particularly for products in direct contact with humans or entering the environmental ecosystem. CNC’s non-toxic nature guarantees it is safe for a wide range of applications, including medical, food packaging, and water treatment, where material purity is critical.
1. Product Purity
Ensure the supplier can consistently deliver cellulose nanocrystals (CNC) with high purity levels, as impurities can significantly affect the performance in end-use applications.
2. Scale of Production
Verify the supplier's capability to meet your volume requirements, both for small-scale prototypes and large-scale production needs.
3. Customization Options
Check if the supplier offers customization in terms of CNC dimensions and surface functionalization, which can be critical for specific applications.
4. Quality Certifications
Look for suppliers with relevant quality certifications (e.g., ISO) that demonstrate adherence to international standards in manufacturing and quality control.
5. Technical Support and Service
Assess the level of technical support provided, including pre-sales consultation and post-sales service, to ensure smooth integration of CNC into your products.
6. Cost-Effectiveness
While not compromising on quality, compare the pricing of different suppliers to ensure you are getting the best value for your investment in cellulose nanocrystals.
Cellulose Nanocrystal (CNC) is making a significant impact in the field of sustainable materials, particularly within the packaging industry. Companies are increasingly turning to CNC to enhance the strength and durability of bio-based packaging solutions. Its natural origin and biodegradability make it an ideal component for creating environmentally friendly packaging that doesn't compromise on performance, offering a viable alternative to traditional, petroleum-based options. In the realm of electronics, CNC is revolutionizing the production of flexible electronics. Its excellent mechanical properties and ability to conduct electricity when combined with certain polymers or metals are being leveraged to develop lightweight, flexible, and more sustainable electronic components. This innovation opens new doors for the creation of bendable screens and wearable technology, providing a greener alternative in electronics manufacturing. Another significant application of CNC is in the automotive industry, where it's used to fabricate lightweight composite materials. These advanced materials contribute to the production of lighter vehicles, which, in turn, enhances fuel efficiency and reduces carbon emissions. The automotive sector values CNC for its ability to strengthen materials without adding significant weight, aligning with the industry's push towards sustainability and efficiency.
Cellulose nanocrystals (CNCs) are at an intermediate stage in the Technology Readiness Level (TRL) spectrum, generally positioned between TRL 4 and TRL 6. This placement reflects the transition from laboratory validation to the demonstration of CNC functionality in relevant environments. The primary technical reason for this TRL positioning is the successful synthesis and characterization of CNCs under controlled conditions, demonstrating their potential for high-strength, lightweight, and biodegradable materials. However, scaling these processes to industry-relevant levels poses significant challenges. These include achieving consistent quality in larger batches, addressing the high energy consumption of current extraction methods, and refining the integration of CNCs into composite materials. While there has been considerable progress in optimizing the extraction process and in formulating CNC composites with enhanced performance characteristics, the demonstration of these technologies in operational environments (TRL 6) is still ongoing. The technical hurdles related to scalability, cost efficiency, and environmental impact are the main factors that have so far prevented CNC technology from advancing to higher TRLs, where its practical application and commercial viability could be fully demonstrated.
In the short-term, advancements in cellulose nanocrystal (CNC) technology are expected to focus on enhancing production efficiency and reducing costs. Researchers are working on streamlining the extraction process from various biomass sources, aiming to increase yield and purity. This phase is also likely to see the development of more environmentally friendly chemical treatments to prepare CNC, reducing the reliance on harsh solvents and lowering the ecological footprint. Moving into the mid-term, the application of CNC in composite materials will take center stage. Innovations will likely involve integrating CNC into bioplastics, automotive parts, and even in the construction industry to improve material strength while maintaining lightweight properties. This period will also witness an increase in research dedicated to the electrical conductivity of CNC, opening up new possibilities in electronics and energy storage solutions. In the long-term, the focus will shift towards fully unlocking the potential of CNC in medical applications and high-tech fields. We can anticipate groundbreaking uses in drug delivery systems, where CNC's biocompatibility and functionalizability could offer targeted delivery and controlled release. Furthermore, the exploration of CNC’s role in advanced electronics, such as flexible displays and nanoscale transistors, could revolutionize the tech landscape, pushing the boundaries of current capabilities and ushering in a new era of sustainable, high-performance materials.
Some interesting questions that has been asked about the results you have just received for Cellulose Nanocrystal
What are related technologies to Cellulose Nanocrystal?
Based on our calculations related technologies to Cellulose Nanocrystal are Glass, Superconductors, High-Performance Materials, Raw Materials, Phase Change Materials
Who are Start-Ups in the field of Cellulose Nanocrystal?
Start-Ups who are working in Cellulose Nanocrystal are PowderNano
Which industries are mostly working on Cellulose Nanocrystal?
The most represented industries which are working in Cellulose Nanocrystal are Science and Engineering, Biotechnology, Data and Analytics, Education, Energy
How does ensun find these Cellulose Nanocrystal 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.