Thin Film

Summary

  • 482 Companies
  • 11 154 Patents
  • 12 068 Use Cases
  • 88 Case Studies
  • 28 805 Science Papers
  • $593 805 378 Total Funding

Companies

#Organisation NameIndustriesHeadquarterDescriptionFounded YearCompany TypeNum of Employees
1
Chemicals
Fürth, BY
KURZ is a worldwide leader in thin film technology with over 5,500 employees. KURZ develops and manufactures decorative and functional coatings that are applied to carrier foils and employed for a wide variety of products: for automotive components, cell phones, TVs, white goods, furniture, packaging, books, textiles, bottle labels, bank cards and lots more. KURZ coatings decorate products, enhance brands, label goods, protect surfaces and prevent counterfeiting. Moreover, KURZ inserts optical elements with digital functions, linking the visual to the virtual world. KURZ provides complete solutions that include project consultancy plus machine and die technology. The KURZ Group has over 30 sites worldwide and produces under standardized quality and environmental standards in Europe, Asia, and the USA. With a global network of subsidiaries, agencies and sales offices, we ensure short paths, reliable delivery and individual on-site assistance.
-
Privately Held
422
2
Semiconductors
Trübbach, Sankt Gallen
Welcome to Evatec - The Thin Film Powerhouse From LEDS to Lasers, Power Chips to Packaging Level solutions for EMI shielding, our thin film deposition and etch systems enable manufacture of the worlds highest performance optical, optoelectronic and semiconductor devices. Our Advanced Process Control ( APC) technologies enables new level of thin film performance and production yield. We offer complete process solutions in our core markets of Advanced Packaging, Power Devices, MEMS, Wireless Technologies, Optoelectronics and Photonics. Read more about process technologies and our range of deposition platforms to see how we use our know how across optical , optoelectronics and semiconductor markets to enhance throughput and drive down cost of ownership. "​ In-situ"​ capabilities including optical pyrometry, plasma emission monitoring, film stress , electrical property and broadband optical monitoring delivery optimum film performance and production yields for next generation devices.
2004
Privately Held
376
3
Engineering
Bangalore, Karnataka
Hind High Vacuum Company Pvt. Ltd. (HHV) is India’s premier high vacuum and thin film technology company. With over 50 years of expertise in the design and manufacture of high vacuum systems and equipment for research and industrial applications, HHV’s products are integral to multiple sectors that include Aerospace, Automotive and Defense. HHV products include laboratory and industrial-scale vacuum coating systems for optical, decorative and functional coatings, astronomical telescope mirror coaters and customized vacuum furnaces for complex metallurgical applications.
1965
Privately Held
254
4
Machinery
Hingham, MA
Dynavac manufactures high vacuum systems for thin film deposition, space simulation and custom-engineered applications. We have been in business since 1982 and enjoy a reputation that is based on design innovation, quality workmanship, and customer satisfaction.
1982
Privately Held
72
5
Manufacturing
San Diego, California
Filmetrics features a complete line of affordable UV to NIR spectrometer systems for measuring thin film thickness from 1nm to 13mm, optical constants, and deposition rates of thin films. For applications requiring measurement of sub-nanometer surface roughness and/or precision step heights, Filmetrics offers the Profilm3D – an easy-to-use, full-featured profilometer at a fraction of the cost of competitive systems.
1995
Privately Held
62
6
-
Tempe, Arizona
First Solar is a leading American solar technology company and global provider of responsibly produced eco-efficient solar modules advancing the fight against climate change. Developed at R&D labs in California and Ohio, the company’s advanced thin film photovoltaic (PV) modules represent the next generation of solar technologies, providing a competitive, high-performance, lower-carbon alternative to conventional crystalline silicon PV panels. From raw material sourcing and manufacturing through end-of-life module recycling, First Solar’s approach to technology embodies sustainability and a responsibility towards people and the planet. For more information about First Solar: - Visit us on the web at http://www.firstsolar.com - Follow us on Twitter at http://www.twitter.com/firstsolar (@FirstSolar) - Subscribe to our blog at http://www.firstsolar.com/Press-Center/First-Solar-Blog - Check us out on YouTube at http://www.youtube.com/firstsolar
1999
Public Company
3 715
7
Mining and Metals
Mayfield Heights, OH
Materion (NYSE: MTRN) is one of the world’s premier advanced materials solutions providers. At Materion, we are committed to developing, manufacturing and marketing highly engineered advanced materials for global customers across a wide range of markets, including consumer electronics, defense and science, industrial and aerospace, automotive electronics, telecommunications infrastructure, appliances, medical and energy. Our products, processes and expertise help enable our customers’ technologies. Our unique product portfolio includes: - Specialty engineered alloys - Beryllium and non-Be metal and metal matrix composites - Engineered clad and plated metal systems - Precious and non-precious specialty metals - Precision optical filters - Inorganic chemicals and powders - Specialty thin film coatings We differentiate ourselves in these markets with a strong global base of manufacturing operations and service capabilities, a broad array of high-performance products, and specialized materials engineering expertise that ranges across metallurgy, chemistry, thin film deposition and coating, and high precision optical filter technology. Our people are our strength: - Materials scientists - Chemists and physicists - Manufacturing and process engineers - Applications and sales engineers - Customer service teams - Technical support staff - Supply chain / logistics / materials management experts Founded in 1931 with roots going back more than 100 years, the company today serves customers in more than 50 countries. We have operating, service center and major office locations throughout North America, Europe and Asia, and employ approximately 2,500 people worldwide. What we offer: - Broad range of technical capabilities & core offerings - Customizable engineered materials - Application experts - Solutions that enable our customers to win... Discover What's Possible!
1931
Public Company
1 527
8
Manufacturing
Bad Ragaz, SG
INFICON is a leading provider of innovative instrumentation, critical sensor technologies, and advanced process control software that enhance productivity and quality in sophisticated industrial vacuum processes. These analysis, measurement and control products are essential for gas leak detection in air conditioning/refrigeration and automotive manufacturing. They are vital to equipment manufacturers and end-users in the complex fabrication of semiconductors and thin film coatings for optics, flat panel displays, solar cells and industrial vacuum coating applications. Other users of our vacuum-based processes include the life sciences, research, aerospace, packaging, heat treatment, laser cutting and many other industrial processes. We also leverage our expertise in vacuum technology to provide unique, toxic chemical analysis products for emergency response, security, and environmental health and safety. INFICON is headquartered in Switzerland and has world-class manufacturing facilities in Europe, the United States and China, as well as subsidiaries in China, Denmark, Finland, France, Germany, India, Italy, Japan, Korea, Liechtenstein, Singapore, Sweden, Switzerland, Taiwan, the United Kingdom and the United States. INFICON is ISO 9001 and ISO 14001 registered at our main locations. For more information about INFICON and its products, please visit www.inficon.com.
2000
Public Company
785
9
Machinery
Terrassa, Barcelona
Telstar, part of the azbil group, is a company with a long track record and experience in the development of engineering projects, equipment and services for companies linked with life sciences, traditional technology, medicine, high technology industry and scientific research. Telstar Life Science solutions Development of complete integrated engineering, construction, equipment and services solutions for life sciences. •Design and manufacture of integrated process equipment in the process field through application of in-house technologies for sterilization, generation of water and pure steam, freeze-drying, containment, clean air, cell culture and cold storage. •Design and implementation of complete pharmaceutical and biotechnological turnkey installations including engineering, consulting, construction, critical systems installation, design and production of equipment, training of professionals, quality assurance, validation and commissioning. Telstar Vacuum solutions We design and manufacture equipment that requires applications of high and ultra-high vacuum technology such as space simulation chambers, projects for nuclear fusion energy or synchrotrons for high technology industries and the science sector. Telstar Instruments for solutions Telstar develops and sells instrumentation and techniques for surface characterisation, quality control and thin film process techniques for the scientific and research fields.
1963
Privately Held
660
10
Manufacturing
Tokyo, Shibuya
Since its inception in 1951, Rigaku has been at the forefront of analytical and industrial instrumentation technology. Today, with hundreds of major innovations to their credit, the Rigaku Group of Companies are world leaders in the fields of general X-ray diffraction (XRD), thin film analysis (XRF, XRD and XRR), X-ray fluorescence spectrometry (TXRF, EDXRF and WDXRF), small angle X-ray scattering (SAXS), protein and small molecule X-ray crystallography, Raman spectroscopy, X-ray optics, semiconductor metrology (TXRF, XRF, XRD and XRR), X-ray sources, computed tomography, nondestructive testing and thermal analysis. With Rigaku's vast understanding of X-ray and its complementary technologies as a foundation, our true strength is seen in an unparalleled willingness to collaborate with customers. By promoting partnerships, dialog, and innovation within the global scientific and industrial communities, Rigaku demonstrates a relentless commitment to providing our client markets with fully integrated solutions. The company and its employees are dedicated to developing and supplying universities, industry, and government labs with the ultimate in customer-focused integrated solutions across a wide variety of disciplines, including structural proteomics, nanoengineering research, general purpose X-ray diffraction (XRD) and spectroscopy (XRF), materials analysis and quality assurance. Whether supplying the tools to create better semiconductor chips, enabling drug discovery, improving production line quality, or exploring the new frontier of nanotechnology, Rigaku products and services lead with innovation. Rigaku employs over 1,400 people worldwide in operations based in Japan, the U.S., Europe and China. We value our people. Our value comes from them. Close collaboration between our users and employees sets the direction and focus of our work, allowing us to address customers'​ needs and stay close to the market place.
-
Privately Held
432

Patents

#NumberTitleAbstractDateKindAssigneeInventor
1
11 046 055
Air-floating thin film bonding apparatus and its air-supplying roller
An air-floating thin film bonding apparatus and its air-floating roller is provided. The apparatus is composed of an air-floating rollers, which can blow out airflow at a specific angle to be applied to the base film with three-dimensional obstacles. The positive pressure provided by the airflow can be utilized to fill the gap space caused by the three-dimensional obstacles. Therefore, the base film can bond to the bonding film tightly to overcome the wrinkles and defects caused by the three-dimensional obstacle and the problem of unflatness of the film-bonding can be solved.
B1
PROLOGIUM TECHNOLOGY CO., LTD., Prologium Holding Inc.
Ching-Ho Wang, Szu-Nan Yang
2
11 049 975
Dual-gate thin film transistor, manufacturing method thereof, array substrate and display device
A dual-gate thin film transistor, a manufacturing method thereof, an array substrate and a display device are provided. The dual-gate thin film transistor includes: a base substrate and a first gate, a first gate insulating layer, an active layer, a second gate insulating layer, a first electrode, a second electrode, a second gate and a connection electrode, formed on the base substrate. The second gate, the first electrode and the second electrode are formed on the same level. The first gate insulating layer includes a first via hole exposing a portion of the first gate, and the connection electrode is electrically connected with the second gate and is electrically connected with the first gate through the first via hole.
B2
BEIJING BOE DISPLAY TECHNOLOGY CO., LTD., BOE TECHNOLOGY GROUP CO., LTD.
Lianjie Qu, Jinchao Bai
3
11 046 849
Thin film aliphatic polyurea and system
A thin film that is a result of polyaspartic secondary aliphatic diamines reacted with a low viscosity aliphatic polyisocyanate is provided. A unique feature of the films is the ability to tailor the dry time of this coating. Methods for making the film use a plural component spray machine that has an atomizer and a fluid housing connected to two pressurized and heated component tanks. A polyaspartic ester containing resin and aliphatic polyisocyanate mix through high pressure impingement within the spray machine. A reactant mixture exits the spray machine via the atomizer and forms a film on a surface that is tack free in about 5 minutes.
B2
LINE-X LLC
Terry Pe, Elaheh Khani
4
11 049 948
Vertical thin film transistor with perforated or comb-gate electrode configuration
The present invention provides a vertical-type thin film transistor (TFT). The vertical TFT may comprise a source electrode and a drain electrode extending parallel to each other, with a semiconductor layer arranged in between the source electrode and the drain electrode. Two or more gate electrodes may be embedded in the semiconductor layer, the two or more gate electrodes being arranged parallel to one another. Each of the two or more gate electrodes may comprise a structure adapted to allow the flow of electrons therethrough. The structure of each of the gate electrodes may comprise one of a comb-like structure, a mesh structure, a perforated structure, a lattice structure, and the like. The structure may block a direct electric field between the source electrode and the drain electrode. The structure may allow the flow of electrons around and between elements of the structure.
B2
Solsona Enterprise, LLC
Kenji Nomura, Chong Uk Lee
5
11 043 719
Barrier for thin film lithium batteries made on flexible substrates and related methods
A thin film solid state battery configured with barrier regions formed on a flexible substrate member and method. The method includes forming a bottom thin film barrier material overlying and directly contacting a surface region of a substrate. A first current collector region can be formed overlying the bottom barrier material and forming a first cathode material overlying the first current collector region. A first electrolyte can be formed overlying the first cathode material, and a second current collector region can be formed overlying the first anode material. The method also includes forming an intermediary thin film barrier material overlying the second current collector region and forming a top thin film barrier material overlying the second electrochemical cell. The solid state battery can comprise the elements described in the method of fabrication.
B2
Sakti3, Inc.
Marc Langlois, Hyoncheol Kim, Stephen Buckingham, Yen-Hung Chen, Myoungdo Chung, Ann Marie Sastry
6
11 043 652
Display panel with quantum dot thin film
The present invention provides a display panel including a light emitting diode structure. The light emitting diode structure includes an anode located on a thin film transistor layer, a light emitting material layer located on the anode, and a cathode covering the light emitting material layer. The light emitting diode structure further includes an anode reflective layer and a quantum dot thin film. The anode reflective layer is located under the anode, and is electrically insulated from the anode through a reflective insulation layer. The quantum dot thin film is located between the anode and the anode reflective layer.
B2
SHENZHEN CHINA STAR OPTOELECTRONICS SEMICONDUCTOR DISPLAY TECHNOLOGY CO., LTD.
Weijing Zeng
7
11 043 496
Thin film transistors and related fabrication techniques
Methods and apparatuses for thin film transistors and related fabrication techniques are described. The thin film transistors may access two or more decks of memory cells disposed in a cross-point architecture. The fabrication techniques may use one or more patterns of vias formed at a top layer of a composite stack, which may facilitate building the thin film transistors within the composite stack while using a reduced number of processing steps. Different configurations of the thin film transistors may be built using the fabrication techniques by utilizing different groups of the vias. Further, circuits and components of a memory device (e.g., decoder circuitry, interconnects between aspects of one or more memory arrays) may be constructed using the thin film transistors as described herein along with related via-based fabrication techniques.
B2
Micron Technology, Inc.
Stephen W. Russell, Hernan A. Castro, Stephen H. Tang
8
11 038 116
Compound and organic thin film and thin film transistor and electronic device
Disclosed are a compound represented by Chemical Formula 1A or 1B, an organic thin film including the same, a thin film transistor, and an electronic device. In Chemical Formula 1A or 1B, X1, X2, Ar1, R1 to R4, and n1 are the same as described in the detailed description.
B2
SAMSUNG ELECTRONICS CO., LTD.
Jeong Il Park, Eunkyung Lee, Don-Wook Lee
9
11 037 963
Thin film transistor and method for manufacturing the same, and display device including the same
A thin film transistor and a method for manufacturing the same, and a display device including the same are disclosed, in which a P type semiconductor characteristic is realized using an active layer that includes a Sn based oxide. The thin film transistor comprises an active layer that includes an Sn(II)O based oxide; a metal oxide layer being in contact with one surface of the active layer; a gate electrode overlapped with the active layer; a gate insulating film provided between the gate electrode and the active layer; a source electrode being in contact with a first side of the active layer; and a drain electrode being in contact with a second side of the active layer.
B2
LG DISPLAY CO., LTD.
HyungJoon Koo
10
11 036 103
Thin film transistor substrate, liquid crystal display apparatus including the same, and method of manufacturing same
An apparatus and method for making a liquid crystal display (LCD) in which a thin film substrate includes a separately formed partition wall to more easily control the sizes of through-holes formed in a color filter of the LCD.
B2
Samsung Display Co., Ltd.
Jina Seo

Patents by Year

Inventors

Assignees

Assignees

Science

Data limited by 2021

Top 10 cited papers

#Paper TitlePaper AbstractAuthorsFields of StudyYearCitation Count
1
Epitaxial BiFeO3 Multiferroic Thin Film Heterostructures
Enhancement of polarization and related properties in heteroepitaxially constrained thin films of the ferroelectromagnet, BiFeO3, is reported. Structure analysis indicates that the crystal structure of film is monoclinic in contrast to bulk, which is rhombohedral. The films display a room-temperature spontaneous polarization (50 to 60 microcoulombs per square centimeter) almost an order of magnitude higher than that of the bulk (6.1 microcoulombs per square centimeter). The observed enhancement is corroborated by first-principles calculations and found to originate from a high sensitivity of the polarization to small changes in lattice parameters. The films also exhibit enhanced thickness-dependent magnetism compared with the bulk. These enhanced and combined functional responses in thin film form present an opportunity to create and implement thin film devices that actively couple the magnetic and ferroelectric order parameters.
Physics, Materials Science, Medicine
2003
4 900
2
Printable thin film supercapacitors using single-walled carbon nanotubes.
Thin film supercapacitors were fabricated using printable materials to make flexible devices on plastic. The active electrodes were made from sprayed networks of single-walled carbon nanotubes (SWCNTs) serving as both electrodes and charge collectors. Using a printable aqueous gel electrolyte as well as an organic liquid electrolyte, the performances of the devices show very high energy and power densities (6 W h/kg for both electrolytes and 23 and 70 kW/kg for aqueous gel electrolyte and organic electrolyte, respectively) which is comparable to performance in other SWCNT-based supercapacitor devices fabricated using different methods. The results underline the potential of printable thin film supercapacitors. The simplified architecture and the sole use of printable materials may lead to a new class of entirely printable charge storage devices allowing for full integration with the emerging field of printed electronics.
Engineering, Materials Science, Medicine
2009
1 352
3
Graphene nanosheet: synthesis, molecular engineering, thin film, hybrids, and energy and analytical applications.
The emergence of graphene nanosheet (GN, 2010 Nobel Prize for Physics) has recently opened up an exciting new field in the science and technology of two-dimensional (2D) nanomaterials with continuously growing academic and technological impetus. GN exhibits unique electronic, optical, magnetic, thermal and mechanical properties arising from its strictly 2D structure and thus has many important technical applications. Actually, GN-based materials have enormous potential to rival or even surpass the performance of carbon nanotube-based counterparts, given that cheap, large-scale production and processing methods for high-quality GN become available. Therefore, the studies on GN in the aspects of chemistry, physical, materials, biology and interdisciplinary science have been in full flow in the past five years. In this critical review, from the viewpoint of chemistry and materials, we will cover recent significant advances in synthesis, molecular engineering, thin film, hybrids, and energy and analytical applications of the "star-material" GN together with discussion on its major challenges and opportunities for future GN research (315 references).
Physics, Materials Science, Medicine
2011
1 096
4
Introduction to Organic Thin Film Transistors and Design of n-Channel Organic Semiconductors
The development of new organic semiconductors with improved performance in organic thin film transistors (OTFTs) is a major challenge for materials chemists. There is a particular need to develop air-stable n-channel (electron-conducting) organic semiconductors with performance comparable to that of p-channel (hole-conducting) materials, for organic electronics to realize the benefits of complementary circuit design, i.e., the ability to switch transistors with either positive or negative gate voltages. There have been significant advancements in the past five years. In terms of standard OTFT metrics such as the field effect mobility (μFET) and on-to-off current ratio (ION/IOFF), n-channel OTFTs have achieved performance comparable both to that of n-channel amorphous silicon TFTs and to that of the best reported p-channel (hole-conducting) OTFTs; however, issues of device stability linger. This review provides a detailed introduction to OTFTs, summarizes recent progress in the development of new n-channel...
Engineering, Materials Science
2004
1 083
5
High-mobility polymer gate dielectric pentacene thin film transistors
We have fabricated pentacene organic thin film transistors with spin-coated polymer gate dielectric layers, including cross-linked polyvinylphenol and a polyvinylphenol-based copolymer, and obtained devices with excellent electrical characteristics, including carrier mobility as large as 3 cm2/V s, subthreshold swing as low as 1.2 V/decade, and on/off current ratio of 105. For comparison, we have also fabricated pentacene transistors using thermally grown silicon dioxide as the gate dielectric and obtained carrier mobilities as large as 1 cm2/V s and subthreshold swing as low as 0.5 V/decade.
Physics, Materials Science
2002
1 059
6
Erbium implanted thin film photonic materials
Erbium doped materials are of great interest in thin film integrated optoelectronic technology, due to their Er3+ intra-4f emission at 1.54 μm, a standard telecommunication wavelength. Er-doped dielectric thin films can be used to fabricate planar optical amplifiers or lasers that can be integrated with other devices on the same chip. Semiconductors, such as silicon, can also be doped with erbium. In this case the Er may be excited through optically or electrically generated charge carriers. Er-doped Si light-emitting diodes may find applications in Si-based optoelectronic circuits. In this article, the synthesis, characterization, and application of several different Er-doped thin film photonic materials is described. It focuses on oxide glasses (pure SiO2, phosphosilicate, borosilicate, and soda-lime glasses), ceramic thin films (Al2O3, Y2O3, LiNbO3), and amorphous and crystalline silicon, all doped with Er by ion implantation. MeV ion implantation is a technique that is ideally suited to dope these mat...
Physics, Materials Science
1997
953
7
Measurement of thin film parameters with a prism coupler.
The prism coupler, known from experiments on integrated optics, can be used to determine the refractive index and the thickness of a light-guiding thin film. Both parameters are obtained simultaneously and with good accuracy by measuring the coupling angles at the prism and fitting them by a theoretical dispersion curve. The fundamentals and limitations. of this method are discussed, its practical use, and mathematical procedures for the evaluation.
Physics, Materials Science, Medicine
1973
944
8
Synthesis of few-layer hexagonal boron nitride thin film by chemical vapor deposition.
In this contribution we demonstrate a method of synthesizing a hexagonal boron nitride (h-BN) thin film by ambient pressure chemical vapor deposition on polycrystalline Ni films. Depending on the growth conditions, the thickness of the obtained h-BN film is between ∼5 and 50 nm. The h-BN grows continuously on the entire Ni surface and the region with uniform thickness can be up to 20 μm in lateral size which is only limited by the size of the Ni single crystal grains. The hexagonal structure was confirmed by both electron and X-ray diffraction. X-ray photoelectron spectroscopy shows the B/N atomic ratio to be 1:1.12. A large optical band gap (5.92 eV) was obtained from the photoabsorption spectra which suggest the potential usage of this h-BN film in optoelectronic devices.
Physics, Materials Science, Medicine
2010
914
9
Nanoporous Ni(OH)2 thin film on 3D Ultrathin-graphite foam for asymmetric supercapacitor.
Nanoporous nickel hydroxide (Ni(OH)2) thin film was grown on the surface of ultrathin-graphite foam (UGF) via a hydrothermal reaction. The resulting free-standing Ni(OH)2/UGF composite was used as the electrode in a supercapacitor without the need for addition of either binder or metal-based current collector. The highly conductive 3D UGF network facilitates electron transport and the porous Ni(OH)2 thin film structure shortens ion diffusion paths and facilitates the rapid migration of electrolyte ions. An asymmetric supercapacitor was also made and studied with Ni(OH)2/UGF as the positive electrode and activated microwave exfoliated graphite oxide ('a-MEGO') as the negative electrode. The highest power density of the fully packaged asymmetric cell (44.0 kW/kg) was much higher (2-27 times higher), while the energy density was comparable to or higher, than high-end commercially available supercapacitors. This asymmetric supercapacitor had a capacitance retention of 63.2% after 10,000 cycles.
Materials Science, Medicine
2013
910
10
Perpendicular magnetic anisotropy in Pd/Co thin film layered structures
This letter presents the results of magnetic studies of thin film, periodic, Pd/Co layered structures with ultrathin cobalt (4–13 A). We show that films with Co thicknesses less than 8 A are easy to magnetize along a direction normal to the film surface. The best films have a saturation magnetization of about 500 emu/cm3 and a coercivity of 550 Oe, and thus they are candidates for a vertical magnetic recording medium. We attribute the perpendicular magnetic easy axis in these films to surface anisotropy at Pd/Co interfaces and strain in thin Co layers.
Physics, Geology, Materials Science
1985
812

Top 10 cited authors

#AuthorPapers countCitation Count
1
254
22 453
2
203
20 749
3
317
15 419
4
131
15 378
5
77
14 290
6
253
14 071
7
63
12 183
8
244
11 978
9
31
11 842
10
238
11 595

Science papers by Year

Clinical Trials

  • Researches Count 4
  • Ongoing Studies 1
  • Total Enrollment 119

Clinical Trials by Year

Countries

Phases

Clinical Trials

#TitleConditionsInterventionsEnrollmentYearLocations
1
Vitamin D Replacement Using Oral Thin Film (OTF) Cholecalciferol in Patients Undergoing Hematopoietic Stem Cell Transplantation
Hematopoietic Stem Cell Transplantation (HSCT), Vitamin D Deficiency
Oral Thin Film (OTF) Cholecalciferol (Vitamin D3)
20
2021
Children's Hospital Medical Center, Cincinnati
2
An Open-label, Randomized, Four-way Crossover, Single Dose Study to Investigate the Safety, Tolerability and Pharmacokinetics of Different Oral Thin Film (S)-Ketamine Formulations for Sublingual Administration in Healthy Participants
Healthy
OTF 1, OTF 2, OTF 3, OTF 4
16
2020
Janssen Research & Development, LLC
3
Spectacle Tints and Thin-Films to Reduce Headache Frequency in Patients With Chronic Migraine
Headache Migraine Chronic
Gray tinted spectacle lenses, Thin-Film spectacle lenses
140
2016
University of Utah
4
Thin Film Spectacle Coatings to Reduce Light Sensitivity and Headaches in Child and Adolescent Patients With Migraine
Migraine Disorders, Photophobia
Investigational Coating
35
2014
University of Utah
5
A Randomized, Double-blind, Placebo-controlled, Crossover Study of the Safety and Efficacy of Tropicamide 1 mg Intra-oral Slow Dissolving Muco-adhesive Thin Films to Reduce Hypersalivation in PD Patients Manifesting Sialorrhea Complaints
Sialorrhea (Excessive Drooling)
NH004 Placebo, NH004 tropicamide
30
2013
NeuroHealing Pharmaceuticals Inc.
6
Thin Film Spectacle Coatings to Reduce Light Sensitivity and Headaches in Patients With Migraine.
Migraine Disorders, Photophobia
Sham Lens Coating, Therapeutic Lens Coating
48
2013
University of Utah
7
Oral Potassium Acid Phosphate Supplementation for Preterm Neonates; a Comparison of Oral Thin Films and Standard Oral Therapy.
Hypophosphataemia, Osteopenia of Prematurity
Oral thin film therapy (Potassium acid phosphate oral thin films), Standard therapy (Potassium acid phosphate oral solution)
20
2013
University of Strathclyde

Use Cases

#TopicPaper TitleYearFields of studyCitationsUse CaseAuthors
1
Thin Films
(BixSb1-x)2Se3 thin films for short wavelength infrared region solar cells
2022
0
short wavelength infrared region solar cells
2
Thin Film
2D/2D heterostructured MoS2/PtSe2 promoting charge separation in FTO thin film for efficient and stable photocatalytic hydrogen evolution
2022
0
efficient and stable photocatalytic hydrogen evolution
3
Thin Films
A combinatorial study of SiGeAsTe thin films for application as an Ovonic threshold switch selector
2022
0
application as an ovonic threshold switch selector
4
Thin Films
A Novel Anisotropic Saturation Magnetization Phenomenon in Flexible Mn-doped BiFeO3 Thin Films for Wearable Device
2022
0
wearable device
5
Thin Films
A review on chemical bath deposition of metal chalcogenide thin films for heterojunction solar cells
2022
0
heterojunction solar cells
6
Thin Films
Activated Carbon Mediated Hydrothermally Synthesized CuO Thin Films for Electrochemical Supercapacitors
2022
0
electrochemical supercapacitors
7
Thin Film
AGNW-Embedded and Nano-Patterned PDMS Thin Film for Improved Adhesion and Connection of Cardiomyocytes
2022
0
improved adhesion and connection of cardiomyocytes
8
Thin Films
Al–Au Thin Films for Thermally Stable and Highly Sensitive Plasmonic Sensors
2022
0
thermally stable and highly sensitive plasmonic sensors
9
Thin Films
Ambient Spray Coating of Organic‐Inorganic Composite Thin Films for Perovskite Solar Cell Encapsulation
2022
0
perovskite solar cell encapsulation
10
Thin Films
Amorphous Molybdenum Trioxide Thin Films for Gas Sensing Applications
2022
1
gas sensing applications

Case Studies

#TitleDescriptionPDFYearSource Ranking
1
Accident Case Study : Into Thin Air - documentary film - The D ...
Genre: Investigation and Reality; Synopsis. On July 3, 2021, two New York-based pilots prepare to depart Aspen, Colorado in a Beechcraft Bonanza G36.
no
2021
0
2
Water-Cooled Planetary Mechanism | Thin Film - Dynavac
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 ...
no
2021
0
3
a case study on thin film deposition in an aniline/argon plasma
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 ...
no
2020
1 950
4
a case study on thin film deposition in an aniline/argon plasma
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 ...
no
2020
310
5
a case study on thin film deposition in an aniline/argon plasma
by D Sciacqua · 2020 — Controlling the flux of reactive species: a case study on thin film deposition in an aniline/argon plasma · Authors · Affiliations.
no
2020
6 250
6
a case study on thin film deposition in an aniline/argon plasma
by D Sciacqua · 2020 — Nicolas-Debarnot D, Mérian T, Poncin-Epaillard F. Film chemistry control and growth kinectics of pulsed plasma-polymerized aniline.
no
2020
6 250
7
a case study on thin film deposition in an aniline/argon plasma.
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.
no
2020
620
8
Diamond nanocrystal thin films: Case study on ... - NASA/ADS
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.
no
2020
1 820
9
[PDF] High-entropy ceramic thin films; A case study on ...
Feb 28, 2018 — Fei Wang, X. Zhang, +4 authors B. Cui. Materials Science. 2020. Compared to the extensively studied metallic high-entropy alloys (HEAs), ...
no
2018
970
10
A case study of thin film stress evolution at a ... - SAGE Journals
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: ...
no
2018
1 050

Experts

Twitter

#NameDescriptionFollowersFollowingLocation
1
Nanocoatings
Nanotechnology, nanolayers, nanocoatings, thin film technology, nanoenergy
5 376
3 233
Europe
2
Flexible Solar PV
Flexible Photovoltaics Technology, Flexible Solar Cells, PV technology, PV thin films, Organic Solar Cells, Polymer Solar Cells, Flexible PV Panels.
3 641
2 894
USA
3
Henrik Pedersen
Materials Chemist, Professor at @liu_universitet. Thin films by #CVDep and #ALDep. Dad, #MTB enthusiast, rally co-driver
2 225
1 402
Stigtomta, Sweden
4
Benoît Lessard, Ph.D.
Canada Research Chair and Associate Profesor @uottawa @uottawagenie : polymer synthesis, phthalocyanines, thin film engineering, OTFTs, sensors, OPVs. | he/his
1 449
1 376
Ottawa, Ontario
5
Ameloot Group
We are interested in Porous Materials, Thin Film deposition, and 3D Printing. Home: @KU_Leuven
1 146
336
Leuven
6
Dan
Polluted Mining Village to Oxford D-Phil. Pioneer of both Li ion battery/World's leading thin film PV. Renew. Sustain. Enviro. Nature. ProEU. Teddy Hall. SCFC.
1 084
1 490
Potteries uk
7
Thin Film Photovoltaics
Sharing news about thin film PV
838
116
-
8
Photovoltaic Device Model (gpvdm)
A tool for simulating #organic/#Perovskite thin film devices. Download: https://t.co/AuCdBvZPL1 Youtube: https://t.co/oqronEoG4N Run by: @rcimackenzie Ast. Prof. @Durham_Eng
639
949
Durham, England
9
Lattice Materials
Lattice Materials - custom Germanium and Silicon infrared optical parts, laser mirrors and thin film coating targets. Photonics companies - check us out!
633
1 155
Bozeman, Montana
10
HelsinkiALD
Thin films and nanostructured materials. "The Helsinki group" in ALD research. World leading expertise in ALD chemistry but also topics beyond ALD.
550
104
Univ. Helsinki, Finland

Quora Profiles

#NameAnswersFollowersLocationViewsTopicTopic LinkAnswers to topic
1
48
67
The United States of America
717 120
TFT thin film transistor liquid crystal display
48
2
114
3
New Delhi
7 286
Thin Film Solar Cell Manufacturing
114

Youtube Channels

#NameDescriptionReg DateViewsCountry
1
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.
Sun, 7 Feb 2010
15 049 749
United States
2
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!
Tue, 27 May 2008
1 072 163
United States
3
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/
Mon, 15 Dec 2014
348 772
Germany
4
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.
Sun, 8 Apr 2012
248 774
5
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.
Thu, 5 May 2016
128 992
India
6
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
Wed, 24 Dec 2014
109 619
Japan
7
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]
Mon, 5 Mar 2012
106 146
8
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
Wed, 19 Dec 2012
97 745
9
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.
Thu, 25 Oct 2012
86 145
10
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.
Sun, 17 Apr 2016
82 617
Germany