The B2B platform for the best purchasing descision. Identify and compare relevant B2B manufacturers, suppliers and retailers
Filter
Locations
Result types
Type of company
Select company type
Industries
Select industry
Company status
Select company status preset
Number of employees
Min.
Max.
Founding year
Lock keywords
Exclude keywords
Optional keywords
Bollate, Italy
1-10 Employees
2007
SKE Research Equipment will be present at Nanoinnovation 2023 in Rome (IT) (18-22 September). Hundreds of renowed institutes, universities and companies put their trust in SKE Research Equipment, and we still support them on application and product development, advisoring, fine tuning, scale up, new requirements and upgrade. We believed that nanomaterials could change the world since 20 years, now we are sure! Choose between a complete range of products for your nanofiber applications.
+
Featured
EF050 Starter kit Electrospinning/spraying Starter kit - SKE Research Equipment
... E-Fiber EF050 Electrospinning/spraying Starter kitDesigned for low-cost nanofiber/nanoparticles research, highly flexible and reliable. ...
Pisa, Italy
1-10 Employees
2003
Linari Nanotech s.r.l is an innovative Company born as a branch of Linari Engineering, founded in Pisa 2003 by Eng.Stefano Linari. From the very beginning we had been able to anticipate and successfully meet industries' needs using avant-garde technologies in industrial automation. Our ability to follow all phases of the life cycle of a technological product, from design to manufacturing makes us a partner of choice for those looking for high quality products that are fully customizable. Linari Nanotech is a world leader in the creation of electrospinning systems, mentioned in dozens of scientific publications. Cooperating with some of the best research centers in the world, our acknowledgments accrued over the years.
+
Featured
Electrospinning Roto Translation Unit
... Unit is the perfect machine to produce a nanofibers substrate of uniform thickness. Thanks to its roto-translating movement, fibers are uniformly deposited on the whole collector surface. Electrospinning chamber made of insulating materials, to work in a safe and monitored environment. ...
Tel Aviv-Yafo, Israel
251-500 Employees
1992
Medinol today announced United States Food and Drug Administration (FDA) approval for the EluNIR-PERL™ drug-eluting stent (DES) for the treatment of coronary artery disease. Yoram Richter Medinol’s CEO joined a session on “Innovative stents and valves in cardiac disease” at the UP NEXT summit, Sourasky Medical Center (Ichilov), The first Israeli conference for technological innovation in healthcare. Medinol announces completion of enrollment in its EluNIR HIGH BLEEDING RISK (HBR) trial. Since 1992, our in-house research, development, and manufacturing have continuously raised the bar for revolutionary interventional cardiology products, constantly stretching the limits of innovation. Delivering best-in-class coronary and peripheral drug eluting stents. Our pioneering cardiovascular intervention technology continues to demonstrate extraordinary clinical results, and our products constantly stretch the limits of medical science. Our uncompromising devotion to clinical achievement powers the creation of our products, shapes our roadmap and drives the growth of our intellectual property portfolio. Valve Medical, a wholly owned subsidiary of Medinol Ltd.
+
Featured
Electrospinning
... Electrospinning - ...
Noáin (Valle de Elorz)/Noain (Elortzibar), Spain
1-10 Employees
2011
Our vision is to facilitate the knowledge transfer between Science and Industry, fostering the arrival to the society of advantages coming from the development of new materials. Since our creation, we have been sharing our work with scientists and industry professionals, cooperating with them in the development of proper tools for their specific environments. Communication is crucial to succeed in this task, following the compromise of offering solutions able to deliver the maximum potential of materials. We have the vision of facilitating the knowledge transfer between Science and Industry, fostering the arrival to the society of advantages coming from the development of new materials. We were a group of academics and students working in electronics and sensors.
+
Featured
Electrospinning | Nadetech Innovations
... Electrospinning | Nadetech ...
Phoenix, United States
11-50 Employees
2018
We are a multi-disciplinary laboratory committed to providing our expertise and efficient analytical services. Our mission is to deliver laboratory solutions to accelerate scientific innovation while being committed to quality, transparency, and sustained partnership with our clients. We provide efficient and sophisticated analytical and development services targeted to our client’s needs. We provide SEM and EDS data with statistical analyses on particles & defects for QA/QC, FA, and R&D. Nanoscience Analytical is committed to quality, transparency, and partnership. That’s why we list all of our certifications from leading institutions right here, in one place, with easy-to-understand descriptions. We accelerate scientific innovation by delivering laboratory solutions, commitment to quality, transparency, and sustained partnership with our clients. Offering comprehensive consultation to assess the feasibility of nanoparticle and electrospun nanofiber development.
+
Featured
Electrospinning & Electrospraying capabilities
... Our analytical services laboratory houses multiple electrospinning and electrospraying equipment capable of a range of throughputs, from a single needle ...
Madrid, Spain
11-50 Employees
2017
Somos un estudio de ingenieros creativos que busca soluciones novedosas a través del diseño y fabricación de prototipos…. Para la materialización de un producto imaginario a un producto real, realizamos una serie de fases abarcando distintos ámbitos del diseño industrial para avanzar de forma integral hasta el producto final.
+
Featured
Impresora 3D Electrospinning
... Impresora 3D Electrospinning - Prototipo ...
Halmstad, Sweden
1-10 Employees
2020
Turning ideas into reality, Innovation for a better future. Novainvent is a technology startup that specializes in developing and marketing innovative products. The company aims to leverage cutting-edge technology and design to bring creative and functional products to market that solve real-world problems. Novainvent will build organization with teams connected cutting edge knowledge independent of location, with partnership in different projects. The company will outsource manufacturing to a trusted third-party supplier to minimize costs and ensure reliable production.
+
Featured
Electrospinning
... Electrospinning – ...
Maisach, Germany
1-10 Employees
Wir sind in der Lage auch Kundenwünsche für niedrige Stückzahlen schnell und kostengünstig umzusetzen. Diese Sondermaschinen dienen zur Produktion von Nanofasern, welche in einem Hochspannungsfeld erzeugt werden. Electospinning ist ein Herstellverfahren zur Erzeugung von Nanofasern mithilfe eines Hochspannungsfeldes. Neben unserer eigenen Produktpalette entwickeln, konstruieren und fertigen wir auch für den speziellen Bedarf diverser Kunden. Dabei reicht das Angebot vom Muster-/Serienteil bis zum kompletten System. Unsere zügige Auftragsabwicklung gestalten wir durch langjährige Erfahrung und permanente Prozessverbesserungen.
+
Featured
Elektrospinning | Erich Huber
... Die Electrospinning Technologie: ...
Çanakkale Merkez, Turkey
1-10 Employees
2016
The IDASONIC Nanocoating System and Technologies was founded in 2016 by academicians with expertise in nano-size coating of functional materials. Our vision is to bring the devices we manufacture together with researchers who carry out pioneering studies around the world and to make the IDASONIC Nanocoating System and Technologies brand a well-known brand by making them a part of industrial production. IDASONIC Electrospinning System Lab model has been designed on a lab scale to produce nanofibers that are widely used in industries such as filtration…. IDASONIC Ultrasonic Spray Pyrolysis model has been designed for thin films coating such as sulphides, metal oxides and TCO’s for application in optoelectronic devices. IDASONIC Nanocoating Systems and Technology is committed to providing, designing and manufacturing Nanocoating Systems, especially Spray coating and electrospinning, to its customers. IDASONIC designs and manufactures all different versions of these systems on a lab, pilot and industrial scale. IDASONIC Nanocoating Systems and Technology is committed to ensure thin film coatings with desired composition, over the desired substrate and desired experimental parameters to the researchers carrying out R&D studies by the Spray Coating System within the company as the costumer’s demands….. IDASONIC Nanocoating Systems and Technology is committed to providing, designing and manufacturing Nanocoating Systems, especially Spray coating and electrospinning, to its customers.
+
Featured
IDASONIC - Nanocoating Systems and Technology
... Electrospinning ...
Alcoi / Alcoy, Spain
51-100 Employees
1988
AITEX es el centro de referencia a la vanguardia en innovación, investigación y desarrollo tecnológico en España y uno de los principales de Europa. AITEX es, actualmente, en el ámbito nacional, el centro de referencia de investigación, innovación y servicios técnicos avanzados para las empresas de los sectores textiles, confección y textiles técnicos. Somos centro acreditado para emitir certificaciones que garantizan los diferentes procesos de calidad a empresas de todo el mundo según normativas, requisitos técnicos y estándares internacionales. Somos centro referente en dar respuesta a los nuevos desafíos medioambientales y generamos oportunidades de negocio a través del cambio a nuevos modelos circulares. El laboratorio de AITEX está dotado de la última tecnología en análisis de sustancias químicas y caracterización de materiales y único laboratorio español acreditado para otorgar certificaciones OEKO-TEX®. En 2023, AITEX ha llevado a cabo un total de 291 proyectos, colaborando con 409 empresas y 164 entidades. Vuelven los Monday AITEX Webinars en 2024 con una programación amplia y variada. Realización de ensayos, caracterización y emisión de certificaciones según normativas internacionales.
+
Featured
BIO-E-SPUN – Línea de I+D en bioingeniería para aplicaciones médicas basadas en la tecnología de electrospinning
... BIO-E-SPUN - Línea De I+D En Bioingeniería Para Aplicaciones Médicas Basadas En La Tecnología De Electrospinning - ...
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 Electrospinning
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 36 |
| Amount of suitable service providers | 26 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1988 |
| Youngest suiting company | 2020 |
20%
40%
60%
80%
Electrospinning is a versatile and efficient technique for fabricating ultrafine fibers, typically ranging from nanometers to a few micrometers in diameter, through the application of a high-voltage electric field. This process involves the ejection of a polymer solution or melt from a spinneret, induced by the electric field, towards a grounded collector. The charged jet undergoes a series of instabilities and stretching mechanisms, leading to the rapid evaporation or solidification of the solvent, and resulting in the formation of continuous fibers collected in a nonwoven mat. The parameters of electrospinning, such as the polymer solution properties (viscosity, conductivity, and surface tension), electric field strength, distance between the spinneret and collector, and ambient conditions, can be finely tuned to control the fiber diameter, morphology, and the resulting mat's properties. Electrospinning has gained significant attention across various fields due to its ability to produce fibers with high surface area-to-volume ratios, porosity, and the ability to incorporate functional additives. Its impact is notably profound in biomedical engineering for applications such as tissue engineering scaffolds, wound dressings, and drug delivery systems, owing to the technique's ability to mimic the extracellular matrix's nanostructure. Additionally, its application in creating filters, sensors, and protective clothing underscores electrospinning's versatility, marking it as a pivotal technology in advancing material science and engineering domains.
1. High Surface Area to Volume Ratio:
Electrospinning produces fibers with extremely fine diameters, ranging from a few nanometers to a few micrometers. This results in a material with a high surface area to volume ratio, enhancing its effectiveness in applications such as filtration, drug delivery, and tissue engineering, where surface interaction plays a crucial role.
2. Versatility in Material Selection:
One of the standout benefits of electrospinning is its ability to process a wide range of materials, including polymers, composites, and ceramics. This versatility allows for the creation of fibers tailored to specific applications, whether they require biocompatibility, mechanical strength, or chemical resistance.
3. Control Over Fiber Properties:
Electrospinning offers exceptional control over the properties of the produced fibers, including their diameter, morphology, and orientation. By adjusting parameters such as the solution concentration, electric field strength, and distance between the needle and collector, researchers can fine-tune the fibers' characteristics to meet the needs of various applications.
4. Cost-effectiveness:
Compared to other nanofiber fabrication methods, electrospinning is relatively low-cost and easy to scale up, making it an attractive option for commercial production. Its simplicity and efficiency support widespread adoption in industries ranging from healthcare to environmental protection.
While evaluating the different suppliers make sure to check the following criteria:
1. Technological Expertise and Range
Ensure the supplier has a proven track record in electrospinning technology, including expertise in handling different polymers and configurations.
2. Customization Capabilities
The supplier should be able to provide customized solutions that meet your specific project needs, including the ability to modify equipment and processes.
3. Quality Assurance
Check for certifications and quality control measures that the supplier adheres to, ensuring they meet the highest industry standards.
4. After-Sales Support
Availability of technical support, training, and maintenance services post-purchase is crucial for resolving any operational issues.
5. Cost-Effectiveness
Compare pricing, but also consider the total cost of ownership, including maintenance, supplies, and potential operational costs.
6. Scalability
The supplier’s solutions should be scalable, supporting both your current and future production needs.
7. Innovation and Research
A supplier investing in research and development is likely to offer more advanced and efficient electrospinning solutions.
8. Lead Times
Evaluate the supplier’s ability to meet your deadlines, including the lead times for equipment delivery and setup.
9. Customer Reviews and References
Seek feedback from current or past customers to gauge their satisfaction and the supplier’s reliability and responsiveness.
10. Compatibility with Existing Systems
Ensure the electrospinning equipment and processes are compatible with your existing setup to avoid additional costs or integration issues.
Electrospinning, a versatile fabrication process, is pivotal in creating ultra-fine fibers with applications spanning multiple industries. In the medical sector, it shines through the production of advanced wound dressings and tissue engineering scaffolds. These electrospun fabrics, due to their high surface area-to-volume ratio and porosity, mimic the extracellular matrix, promoting faster healing and cell growth. This technology enables businesses specializing in medical supplies to develop products that significantly enhance patient recovery times and outcomes. In the realm of filtration, electrospinning offers a breakthrough in creating highly efficient air and liquid filters. The fine, interconnected fibers produced through this method can capture particles at the nanoscale, making them ideal for applications requiring stringent purity standards, such as in pharmaceutical manufacturing and water treatment facilities. Companies in the filtration industry leverage electrospinning to develop products that offer superior performance, contributing to cleaner environments and higher-quality products. Additionally, the aerospace and automotive sectors benefit from electrospinning through the development of lightweight and strong composite materials. Incorporating electrospun nanofibers into composite structures enhances mechanical properties such as toughness and durability while maintaining minimal weight. This innovation supports businesses in creating more fuel-efficient vehicles and aircraft, aligning with the growing demand for sustainable transportation solutions. Through these diverse applications, electrospinning presents itself as a key technology driving innovation across industries, offering businesses the tools to develop cutting-edge products that meet the evolving demands of their markets.
Electrospinning, a versatile and efficient technique for producing ultrafine fibers from polymer solutions or melts, currently finds itself situated primarily within Technology Readiness Levels (TRL) 4 to 6, reflecting its transition from small scale, controlled laboratory settings to prototyping and demonstration in relevant environments. This positioning is due to several technical milestones and challenges that have been addressed or are in the process of being tackled. Firstly, the fundamental principles of electrospinning, including the effects of solution properties, electric field strength, and distance between the needle and collector, have been extensively studied and optimized in laboratory settings, pushing the technology into TRL 4. Moving towards TRL 5 and 6, efforts have been concentrated on demonstrating the process's scalability and repeatability, crucial for industrial applications. However, challenges such as the need for uniform fiber deposition, controlling fiber orientation, and ensuring the process's safety at higher scales due to the high voltages required, have necessitated further development and optimization. Additionally, integrating electrospun materials into final product forms that meet specific industry standards poses significant technical hurdles that are currently being addressed. These factors collectively contribute to electrospinning's current TRL, indicating a technology that has proven its fundamental viability but is still undergoing refinement and adaptation for broader commercial application.
In the Short-Term, advancements in electrospinning are poised to focus on enhancing the precision and control of fiber deposition. This includes the development of more sophisticated nozzle designs and the integration of advanced process control systems. These improvements will allow for the production of fibers with highly uniform diameters and the capability to create complex, hierarchical structures. This phase is also likely to see the introduction of novel, eco-friendly materials for electrospinning, reducing the environmental impact of the process. In the Mid-Term, the field is expected to witness significant progress in the scalability of electrospinning processes. Efforts will be directed towards the development of high-throughput electrospinning setups capable of continuous, large-scale production. This will be facilitated by innovations in multi-nozzle systems and automation technologies. Additionally, the mid-term phase will likely see the emergence of electrospun materials with enhanced functionalities, such as improved mechanical properties, conductive fibers for electronics, and fibers with intrinsic antimicrobial properties for medical applications. Looking into the Long-Term, electrospinning technology is anticipated to evolve towards the integration with nanotechnology and biotechnology, leading to groundbreaking applications. This will include the production of smart textiles with embedded sensors for health monitoring, electrospun scaffolds for tissue engineering that mimic the extracellular matrix more closely, and fibers capable of dynamic response to environmental stimuli. The convergence of electrospinning with cutting-edge fields like 3D bioprinting and nanorobotics will open up new horizons in materials science, regenerative medicine, and wearable technology.
Some interesting questions that has been asked about the results you have just received for Electrospinning
What are related technologies to Electrospinning?
Based on our calculations related technologies to Electrospinning are Industrial Electroplating, Industrial Filtration, Industrial Sintering, Industrial Extrusion, Industrial Handling
Who are Start-Ups in the field of Electrospinning?
Start-Ups who are working in Electrospinning are Novainvent
Which industries are mostly working on Electrospinning?
The most represented industries which are working in Electrospinning are Science and Engineering, Health Care, Manufacturing, Biotechnology, Data and Analytics
How does ensun find these Electrospinning 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.
