Thin Films

PREVAC is a world leading manufacturer of deposition and analysis systems based on vacuum technology dedicated for the investigation of chemical and physical properties of solid state surfaces, thin films and nanomaterials. The company designs, manufactures and delivers complete research systems and components, electronic devices and software dedicated to handling PREVAC’s products as well as other manufacturers. The company is very well known of custom solutions.

Vacuum technologies are a key part of many modern industrial applications as they often rely on vacuum technologies. Leybold offers a broad range of advanced vacuum solutions for use in manufacturing and analytical processes, as well as for research purposes. We focus on the development of application- and customer-specific systems for the creation of vacuums and extraction of processing gases. Fields of application are coating technologies, thin films and data storage, analytical instruments and classic industrial processes. For further information visit our website www.leybold.com or our E-Shop www.leyboldproducts.com . Also visit our social media channels on Xing, Facebook, Twitter, Instagram and YouTube. If you are interested in working for Leybold, please visit our employees & career page https://www.leybold.com/en/leybold/vacancies/ Imprint: https://www.leybold.com/en/imprint/ Data Privacy Notice: https://www.leybold.com/en/legal-and-data-privacy/

LTS is a leading pharmaceutical technology company that develops and manufactures innovative drug delivery systems such as Transdermal Patches ("TTS"​) and Oral Thin Films ("OTF"​) for the pharmaceutical industry. While we continuously refine our TTS and OTF technologies further, we also research complementary Micro Array Patches for the transdermal delivery of large molecule, biological actives. Incorporated in 1984, we operate today from two sites in Andernach, Germany and West Caldwell/NJ, USA, plus representative office in Shanghai/China.

The Institute of Solid State Physics, University of Latvia (ISSP UL), is the leading research centre in Latvia that can provide internationally comparable research in materials science, educate students in modern technology and material studies, and provide innovative solutions for industrial applications (Technopolis group research assessment, 2013). Its international competence was acknowledged already in 2001 when the Institute received the "Excellence Centre of Advanced Materials Research and Technology"​ award by the European Comission. The Institute is following research priorities set by the European Comission and the Latvian Government, which are in line with the European strategy for Key Enabling Technologies: - Nanotechnology: -- research of thin films, nanostructured surfaces and nanocomposites for applications in optics, electronics and photonics. - Micro and nanoelectronics (including semiconductors): -- experimental studies of electronic and ionic processes in wide-gap materials with different degree of structural ordering. - Advanced materials: -- theoretical modelling of physical and chemical processes, structure and properties; -- development of multifunctional and hybrid materials for energy applications including photovoltaic elements, fuel cells, hydrogen energetics and light emitting diodes. - Photonics: -- elaboration of functional organic and inorganic materials.

Kampf Schneid- und Wickeltechnik GmbH & Co. KG has been a major technology leader in slitting and winding technology for hundred years. The company, based in Wiehl near Cologne, employs a total of nearly 800 employees. Its product range includes slitting and winding machines, winders, narrow-cut slitting and special machines for manufacturing and processing web-shaped plastic film, composite materials, laminated and aluminium foil, as well as non-wovens, label stock and refined paper. KAMPF is the world's biggest manufacturer of roll slitting and winding machines and winder for films. Exports account for approx. 90% of sales. The company has subsidiaries in the USA, China and India, as well as international sales and service offices. KAMPF has its own technology centre and works continuously on further developing its innovative machines; these include primarily high-performance slitting and winding machines, as well as narrow-cut slitting and winding machines for ultra-thin films. KAMPF Life Cycle Service accompanies its customers over the entire lifecylce of their machines with know-how and up-to-date service products. The KAMPF Academy offers a comprehensive seminar programme with different focal points. Great emphasis is also given to the education of young apprentices.The new training workshop was completed in 2014. This 450 m² state of the art site offers workplaces for future-oriented training. KAMPF sponsors schools and regularly organizes events to give children a better understanding of technology.

AdhexPharma is an independent drug delivery company specialized in Transdermal & Topical patches and Oral Thin Films technologies. AdhexPharma is based in France, with GMP manufacturing facility for European and US market. We have 4 approved products in Europe and North America and a pipeline of 6 candidates, ranging from 505(b)2 / NDA and ANDA in different therapeutical areas: pain, CNS, anesthesia, smoking cessation and HRT.

Optics - Assemblies - Laser Products REO, an Excelitas Technologies Company, sets today’s standards for precision in optical components and assemblies with solutions that are engineered for superior reliability, durability, and cost-effectiveness. Incorporating ion beam sputtered thin films, superpolished substrates and precision assembly technologies, our products provide the ultimate in low loss and high quality. We are the partner you can depend on, now and in the future, to deliver unmatched performance and value. High performance in an optical system starts with the right components and thin film coatings, and REO’s optics offer the best available performance in optical loss, spectral accuracy, wavefront integrity, durability, environmental stability, and laser damage resistance. Mirrors, lenses, prisms, beamsplitters, polarizers, and filters are just a few examples of the types of components that REO provides for a wide range of applications. Building upon superior component technology, REO integrates mechanical and electronic components with precision alignment to provide complete optical assemblies. From simple mounted optics to custom lens cells to complete instrumentation benches, REO provides the total solution for building to your print or designing to your concept. The result is total quality, total reliability, and a simplified supply chain. REO’s experience and flexible manufacturing structure makes us uniquely suited to supply Helium-Neon lasers for performance-critical applications. Only REO manufactures its own laser mirrors in-house, which results in superior output power and laser lifetime. Our stabilized laser product provides an ideal solution for laser-based instrumentation and metrology applications requiring long coherence length or high amplitude stability. REO also offers design-to-concept or build-to-print OEM Laser Assembly solutions for instrumentation or process tool applications requiring customized laser technology.

Ophtalmologic Medical Devices, Dental Devices, Microscopy Devices, Defense and Space Equipments and Components, Electro-optical Devices, Optical Components, Thin Films for Optical and Thermal Applications, Nanostructured Materials, Ophtalmic Lenses, Industrial Laser Equiment for Science and Industry.

The Max Planck Institute of Microstructure Physics explores the creation of novel materials and devices, and systems of devices that could allow for innovative technologies, particularly those that could enable advanced, highly energy-efficient, computing and memory-storage technologies. These include bio-inspired materials and thinking systems, and materials and devices that can support quantum technologies. The Institute has been entirely rebuilt over the past 3 years with modernized offices, meeting rooms, and laboratories and a state-of-the art clean-room, and RBS facility, that are designed to encourage interactions and interdisciplinary research. The Institute is comprised of four independent departments which are closely coupled to one another. The institute has openings for outstanding Ph.D. students, post-doctoral researchers, student interns, technicians and engineers. Current scientific projects include within the Nano-systems from ions, spins and electrons department (Director: Stuart Parkin): spintronics, spin-orbitronics, chiraltronics, non-collinear spin textures, Racetrack Memory, atomically engineered thin film materials, topological materials, the electric field induced transformation of the structure and electronic properties of thin films to create complex three-dimensional meso-structures from the film’s surface. The Nanophotonics, Integration, and Neural Technology department (Director: Joyce Poon) focuses on multi-technology implantable devices that stimulate and record neurons, and integrated photonic devices for 3D micro- displays. The Theory department (Director: Andrei Bernevig) is focused on understanding the fundamental principles that can be used to distinguish and identify materials with topological and quantum properties. Current projects include: classifying all known non-magnetic and, in the future, magnetic materials that may be topological; identifying heterostructures that have unique “twistronic” properties.

Oxford Instruments Asylum Research is the technology leader in atomic force microscopy for both materials and bioscience research. Asylum Research AFMs are widely used by both academic and industrial researchers for characterizing samples from diverse fields spanning material science, polymers, thin films, energy research and biophysics. In addition to routine imaging of sample topography and roughness, Asylum Research AFMs also offer unmatched resolution and quantitative measurement capability for nanoelectrical, nanomechanical and electromechanical characterization. Recent advances have made these measurements far simpler and more automated for increased consistency and productivity. The Cypher™ AFM has models for fast scanning, high resolution imaging, and video-rate AFM scan speeds, and easy environmental control. The MFP-3D™ AFM product lines span a wide range of performance, accessories and pricing with models at a price competitive with many low-cost AFMs. Asylum Research also offers its exclusive SurfRider™ AFM probes among a comprehensive selection of AFM probes, accessories and consumables. Sales, applications and service offices are located in the United States, Germany, United Kingdom, Japan, France, India, China and Taiwan, with distributor offices in other global regions. When you purchase an Asylum AFM, you are assured you will get the #1 customer service and support in the industry that only comes from being a part of the Asylum family.

Genre: Investigation and Reality; Synopsis. On July 3, 2021, two New York-based pilots prepare to depart Aspen, Colorado in a Beechcraft Bonanza G36.

January 14, 2021 Hingham, MA: Dynavac, a leading supplier of thin film deposition and space simulation systems, is pleased to announce the development of a ...

by D Sciacqua · 2020 — & Poncin-Epaillard, F. Film chemistry control and growth kinectics of pulsed plasma-polymerized aniline. Plasma Chem. Plasma Process. 31(1), 217 ...

by D Sciacqua · 2020 — Dario Sciacqua, Cédric Pattyn, Andrea Jagodar, Erik von Wahl, Thomas Lecas, et al.. Controlling the flux of reactive species: a case study ...

by D Sciacqua · 2020 — Controlling the flux of reactive species: a case study on thin film deposition in an aniline/argon plasma · Authors · Affiliations.

by D Sciacqua · 2020 — Nicolas-Debarnot D, Mérian T, Poncin-Epaillard F. Film chemistry control and growth kinectics of pulsed plasma-polymerized aniline.

by D Sciacqua · 2020 — Abstract: The plasma based synthesis of thin films is frequently used to deposit ultra-thin and pinhole-free films on a wide class of different substrates.

by S Solaymani · 2020 · Cited by 11 — Analyzing diamond nanocrystal (DNC) thin film morphology produced by the HFCVD technique is the main objective of the present work.

Feb 28, 2018 — Fei Wang, X. Zhang, +4 authors B. Cui. Materials Science. 2020. Compared to the extensively studied metallic high-entropy alloys (HEAs), ...

by M Al · 2018 · Cited by 6 — Del Vecchio, AL, Spaepen, F. The effect of deposition rate on the intrinsic stress in copper and silver thin films. J Appl Phys 2007; 101: ...

Flexible Photovoltaics Technology, Flexible Solar Cells, PV technology, PV thin films, Organic Solar Cells, Polymer Solar Cells, Flexible PV Panels.

Materials Chemist, Professor at @liu_universitet. Thin films by #CVDep and #ALDep. Dad, #MTB enthusiast, rally co-driver

Thin films and nanostructured materials. "The Helsinki group" in ALD research. World leading expertise in ALD chemistry but also topics beyond ALD.

FP7 project for in-line Micro and Nano defect detection and removal in thin films such as those in flexible electronics, drinks cartons and smart packaging.

Specializing in thin films technology and materials structure/properties relationships.

The Institute of Thin Films, Sensors, and Imaging (ITFSI) is a research institute at the University of the West of Scotland (UWS), founded by Prof. Des Gibson.

PhD Candidate, NC State | CNT | E/Smart Textiles | Wearable Electronics | CVD | Thin films | Nanomaterials

The Nanotechnology Lab- Lab for Thin Films - Nanobiomaterials Nanosystems & Nanometrology (LTFN), Physics Dept., Aristotle University of Thessaloniki

Thin films and Materials, Excellence in service

R. Borsali, PhD @ Univ. Louis Pasteur, Post-doc @ MPI-P (Mainz), Visiting Prof. @ Stanford & IBM (USA). Self-Assembly Glycopolymers : thin films & nanoparticles

Cerakote is the industry innovator in performance based, thin film, ceramic coatings. At Cerakote.com, you can view thousands of gallery images to inspire you, as well as find a Cerakote Certified Applicator near you to apply Cerakote to your next project. Manufacturers - to see if Cerakote is right for your application, give us a call at 1-866-774-7628 and ask for an Account Manager.

I am proud to present these beautiful and cutting edge AMOLED demos developed by me and my partners. I have been developing thin film encapsulation technology for flexible OLED displays for last 10+ years. These flexible OLED displays have come to the market in products like Samsung Galaxy Round, Galaxy Edge series, Gear Fit, Galaxy Gear S etc. Look out for more exciting products in coming years!

Vacuum technologies are a key part of many modern industrial applications as they often rely on vacuum technologies. Leybold offers a broad range of advanced vacuum solutions for use in manufacturing and analytical processes, as well as for research purposes. We focus on the development of application- and customer-specific systems for the creation of vacuums and extraction of processing gases. Fields of application are coating technologies, thin films and data storage, analytical instruments and classic industrial processes. Imprint: https://www.leybold.com/en/imprint/ Data privacy notice: https://www.leybold.com/en/legal-and-data-privacy/

HyperSound is an innovation in audio that uses a thin film to generate an ultrasonic beam of sound. Like a flashlight controls a ray of light, HyperSound directs sound in a narrow beam limiting it to a specific location, creating a precise audio zone. When an individual enters the beam's radius, they hear immersive 3D audio, similar to wearing a surround sound headset. The combination of exceptional control over the placement of audio, and the immersive quality of the sound, makes HyperSound a disruptive innovation that has the potential to dramatically change commercial, consumer, and hearing-loss markets. Turtle Beach Corporation is creating new products based upon HyperSound technology and expanding distribution to new markets and new geographies. The company is also pursuing licensing opportunities with a wide range of manufacturers.

Excel Coatings - Manufacturers and exporters of advanced nano based High SRI heat reflective paint, Cool Roof Paint, Heat insulation transparent glass coating, IR UV cut heat reflective transparent glass coating, Waterproofing coatings, Thin film insulation coating & water repellent coatings. We are the Highest exporters of Heat reflective cool roof paint from india to around 8+ countries. Field proven, time tested products with indian and international quality certifications.

Okawara is an engineering and industrial process machinery manufacturer. Since 1927 we have been dedicating our efforts to drying and thermal processes, gaining an extensive experience in the design of equipment and processes for sectors such as food, nutraceuticals, pharmaceuticals, chemical, environmental, among others. Main Line of Products Industrial dryers: conical mixer (vacuum) dryer, fluid bed dryer, belt conveyor dryer, rotary dryer, slurry dryer, filter vacuum dryer Liquid concentrator/ evaporator: centrifugal thin-film vacuum evaporator Mixer: vertical conical mixer Sterilizers: superheated steam powder sterilization system for powders, granules / seeds Granulation systems: Fluid bed granulator Filtration System: filter vacuum dryer Head Office, Factory & Technical Center 1235, Kando, Yoshida-cho, Haibara-gun, Shizuoka Pref. 421-0304, JAPAN 当社は、1927年（昭和2年）の創業以来90年の長きに渡り、世界でもトップレベルの乾燥装置の専門メーカーとして、食品・化学・製薬・環境など幅の広い分野に各種装置を数多くご提供してまいりました。 〒421-0304 静岡県榛原郡吉田町神戸1235

RDcorp - is a Russian leading manufacturer, which has been presenting exclusively thin high - end products for nail art since 2006 year. Our Photo - Design Stickers with high resolution photos are only 25 microns thin film, which is 4 times thinner than a human average hair. Amazing variety of RDcorp products will help you to create small masterpieces on your nails within only several minutes. It is easy, fast and unique! Be creative, save your time and have fun! RDcorp Group [email protected]

DryWired® is an award-winning Los Angeles based clean tech firm that distributes advanced surface nanotechnologies globally. DryWired’s mission is to harness nanotechnology as a catalyst for change. Our eco-friendly protective thin-film coatings make buildings more energy efficient, surfaces cleaner, lessen e-waste and reduce city air pollution. We are committed to solving global challenges through scientific partnerships with private laboratories and leading universities. www.drywired.com

Angstrom Engineering designs and builds thin film PVD and CVD equipment for research and production applications. We offer flexibility in our product designs allowing you to choose the features you require for your thin film application. Some of the markets we serve include organic electronics, semiconductor, OLED, solar, medical coatings, optical coatings, spintronics, plasmonics and more.

We print light. Printing means paper-thin light in any shape. Our light is made of ORGANIC LED. It is low power. Recyclable. Robust. Integrated into a paper thin film we can provide solutions for the following industries. Packaging and Labeling Solutions Delivered in a self powered version with integrated batteries for Packaging and Labels to increase visibility in marketing and warn in Pharma. Fashion and Safety Equipment Robust and washable we integrate it into fashion with standard processes like sewing or stitching. Electronics products 90% cheaper integration of light and electronics into products.