Founded in 2003, Arradiance® combines unique talents in material science, charged particle physics, equipment design, modeling, simulation, vacuum technology, and metrology providing world class application of Atomic Layer Deposition(ALD) and Plasma Enhanced Deposition(PEALD) to the GEMStar XT product line.
With a concentration in Atomic Layer Deposition, charged particle physics and amplification, Arradiance is the first to develop and demonstrate the capability of producing high gain, low noise, and long life micro channel amplifiers. Using Atomic Layer Deposition (ALD) materials and equipment, Arradiance offers a new approach to electron amplification devices replacing the legacy traditional lead-glass/hydrogen firing process developed in 1960's currently used for all state-of-the-art MCP applications.
Arradiance Atomic Layer Deposition (ALD) technology enables research in many areas:
MCP (Micro Channel Plate) Electron Amplification
Catalysis Systems
Medical Imaging
Space Sciences
Solar Cells
Night Vision
Alternative Energy
Thermal and Fast Neutron Detection
AXIC, Inc. was founded in 1980 as a company to develop surface science equipment for the semiconductor, electronics, and general scientific community. Initial developments focused on x-ray and electron beam analysis of surfaces for compositional and film thickness analysis. These developments lead to the introduction of a stand alone x-ray fluorescence unit which was easily operated by fab personnel for the measurement of film composition and thickness. AXIC, Inc. now produces 3 XRF systems for coatings analysis in both development and production applications for the semiconductor, magnetic, and superconductor industries.
In 1992, AXIC entered the market of producing laser based reflectometers for the measurement of film thickness, index of refraction, and film absorption properties of transparent/translucent films for the semiconductor, optical and magnetics industries.
Shortly after, AXIC commenced the manufacture of plasma tools for cleaning, photoresist stripping, reactive ion etch (RIE), and plasma enhanced chemical vapor deposition (PECVD). Today these offerings include the MultiMode HF8, PlasmaStar, and BenchMark 800-II. Units are ideally suited for research and development and small scale productions. The plasma tools can be configured in various ways to meet the end users' specific requirements.
BaySpec, Inc., founded in 1999 with 100% manufacturing in the USA (San Jose, California), is a vertically integrated spectral sensing company. The company designs, manufactures and markets advanced spectral instruments, including UV-VIS-NIR-SWIR spectrometers, benchtop and portable NIR/SWIR and Raman analyzers, confocal Raman microscopes, hyperspectral imagers, mass spectrometers, and OEM spectral engines and components. R&D Applications include:
Materials: Material characterization is an ideal application area for Raman spectroscopy, due to its high chemical specificity and rapid, non-contact measurement. Solid, liquid, or gaseous, nearly all materials possess a unique Raman spectral fingerprint. The technique can be readily scaled to microscopic approaches, allowing interrogation of extremely small volumes and samples, such as nanomaterials. Characterization of nanomaterials is critical to determining structural and conformational properties. Raman spectroscopy is a highly efficient technique to study the electronic properties, compositions, and mechanical stresses in these materials, all of which can manifest in Raman band shape and frequency shift.
Semiconductor: Raman spectroscopy has proven to be one of the most effective tools for characterization of semiconductor properties and for manufacturing process/quality control because materials such as Si, SiGe, InGaAs, GaAs, GaN, and graphene exhibit precise, distinct Raman bands. Applied in a microscopic approach, the Raman technique has been successfully implemented to determine microstructure composition on thin-films, strain in the multilayer device, and to identify defects across the wafer surface.
Process/Reaction: Unlike conventional UV-Vis and NIR monitoring techniques, Raman spectroscopy provides molecular specificity in real-time measurements of gas, liquid, and solid samples, both natural and synthetic. These attributes are responsible for the emerging reliance on Raman spectroscopy for a number of online process and reaction monitoring applications. Numerous sampling options, including fiber optic probes with long reach and stand-off probes for measuring inside containers and vessels make the technique adaptable to a myriad of environments and conditions.
Surface-Enhanced Raman: Surface-enhanced Raman spectroscopy (SERS) utilizes specialized metal substrates to allow Raman signal enhancement up to 10 orders of magnitude. This phenomenon occurs when the molecules of interest are in very close proximity to the metal substrate, and is generally used for evaporated solutions or particle-surface characterization. The enhanced Raman signal with SERS has extended its applications in many fields, such as biological studies, to quantify trace substances or identify very small structures such as cell surface proteins. Intracellular SERS is also possible, via the injection of metallic nanoparticles, to study internal structures and analytes.
Beijing TIME High Technology Company is a testing instrument manufacturer, located in China. Our company is a wholly owned subsidiary of TIME Group Inc., founded in 1984. We have a long history of manufacturing portable hardness testers. In fact, we produced the first Leeb hardness tester in China. As a result of our focus on expanding our product range, we are now able to provide a wide range of products to perform many material test, measurement, and quality control tasks, including our portable hardness tester, surface roughness tester, ultrasonic thickness tester, and coating thickness tester. In addition, other products such as the ultrasonic flaw detector, X-ray generator, and concrete testing gauge are also available.
Product Categories:
Portable Hardness Tester: Leeb Hardness Tester, Shore Durometer, Ultrasonic Hardness Tester
Roughness Tester
Ultrasonic Thickness Gauge
Coating Thickness Gauge
Vibration Tester
Endoscope
Ultrasonic Flaw Detector
Bench Hardness Tester: Vickers Hardness Tester, Rockwell Hardness Tester, Brinell Hardness Tester
Concrete Testing Gauge
Cheap Tubes supplies the carbon nanotube & graphene products you need at the prices you want to pay. We've supplied high quality carbon nanotubes and graphene products to academic and corporate researchers since 2005. Cheap Tubes has recently moved into a new manufacturing facility to better serve our customers' needs. We are ready to assist you!
Graphene Ink is now available! Please contact us to discuss your graphene ink needs. Our graphene ink can be deposited using conventional coating technologies for a variety of applications.
Prices are in grams for most products and per kilograms for Conductive Nanotubes Composite, Carbon Nanotube Masterbatches, Industrial Grade Carbon Nanotubes. Kg's can be purchased for gram scale products by entering 1000g (you don't have to scroll up, just type it in). CVD graphene Films are sold per substrate or 4 pack of substrates.
Products:
CVD Graphite Films
Graphene Nanoplatelets
Multi Walled Carbon Nanotubes
Single Walled Double Walled Carbon Nanotubes
Functionalized Carbon Nanotubes
Nanowires
Nano Inks
Short Carbon Nanotubes
Graphitized Multi Walled Carbon Nanotubes
Helical Carbon Nanotubes
Fullerenes
Industrial Carbon Nanotubes Products
Carbon Nanotube Arrays
CIANFLONE SCIENTIFIC LLC is the world Headquarters in Pittsburgh, Pennsylvania, USA for the manufacture of laboratory/portable x-ray spectrographs for on-site chemical analysis and coating thickness measurements. Also available is the related Laboratory sample preparation equipment.
We have supplied our products globally for decades and we continue our promise to our customers to help solve their analytical needs.
Products include:
WDXRF Instruments
Sample Preparation
Parts & Accssories
COOKE VACUUM designs and manufactures a wide range of standard and custom high and ultrahigh vacuum systems intended for research and production. With five decades of experience, and thousands of units in the field, COOKE VACUUM has come to symbolize economy and versatility,
Cooke Vacuum Products was established in the late 1950's during an exciting period of experimentation in vacuum technology, especially thin film coating and materials research. From the beginning, Cooke had to pioneer new applications and new tools for the emerging semiconductor and optical industries, and for the related research laboratories.
Over the next decades, Cooke continued to support R&D by developing pumping systems, resistance evaporation, electron-beam, sputtering, and plasma sources, often in close collaboration with customers. Vacuum environmental chambers were developed for the space industry, encapsulation and bake systems for early flat panel displays. New, and highly specialized equipment was made for the quartz crystal industry, as well as for production of printing foil, then holographic foil. We were there to make the first OLED systems, and the first glove-box processors.
Because of the emphasis on custom solutions, the company has remained relatively small, and is well-known for its ability to "engineer on demand" more than for volume production.
Processes/Products
Thin Film Deposition: Thermal Resistance; Electron Beam; Sputter; PLD; OLED and Glove Box Systems.
Etch/Ash/Surface Treatment: Plasma Etch; Reactive Ion Etch; Surface Activation and Modification.
Test and Specials: Environmental Test; Space Simulators; Vacuum Ovens: Laser Die Attach.
CVD Equipment Corporation designs, develops, and manufactures process equipment solutions for R&D, pilot, and production applications. Our products include a complete array of turnkey solutions such as chemical vapor deposition systems, gas & liquid delivery cabinets, gas panels, and related gas abatement systems. CVD Equipment Corporation's headquarters and application laboratory are located on Long Island, New York, USA:
Designs, develops, and manufactures: custom and standard Chemical Vapor Deposition systems.
Recognized leader: a key equipment provider to industry; blue-chip companies; innovative startups; leading university, industrial, and government research laboratories for over 30 years.
Proprietary edge: a significant library of homegrown solutions and know-how for intricate processes across a broad range of applications in aerospace, medical, semiconductor, solar, glass coating, nanomaterials, superconducting materials, etc.
Vertically integrated: design and manufacturing enables rapid system development. We procure raw materials & components and deliver finished systems.
Turnkey systems: includes instrumentation, process control software, gas delivery, process chambers, vacuum systems, and exhaust abatement equipment.
Application laboratory: product and material development.
Darly Custom Technology is a worldwide manufacturer of vacuum coating systems for the converting, electronics, optical, mobile phone, automotive, and nano industries.
Our high-performance vacuum web coaters, batch metallizers and optical thin-film coaters provide different types of coatings for a variety of materials including plastic films, paper, glass, ceramics, metals and plastics. Some of the company's product applications include automotive, mobile phone, optics, converting, nano technology, medical, electronics, and textiles.
Company History.
Darly Custom Technology evolved after a series of business events that would affect the vacuum technology industry in the U.S. and throughout the worldwide.
A leading global manufacturer and distributor of vacuum coaters and products the company is headquartered in Windsor Connecticut.
Darly's Family of Coating Systems and Products.
Darly designs, develops and manufactures many types of vacuum coating systems, sub-systems and spare parts for a wide variety of coating applications. All Darly coaters are designed to maximize uptime, cut production costs, and increase production rates by running up to 24 hours a day with easy access, operating and maintenance.
Our coating systems include vacuum web coaters, thin-film coaters, multi-layer thin film coaters, batch metallizers, Swift-Kote rapid cycle and cluster device that is designed to mount and metallize a small number of 3D plastic substrates in 20 seconds or less.
Most thin-film deposition applications can be met by Darly's standard range of systems and accessories. However, Darly engineers can develop a special unit to match, if your process commands a unique custom design.
Denton Vacuum transforms barriers into thin-film technology breakthroughs for customers across the globe in providing vacuum deposition systems. With operations in the United States and China, Denton engineers, designs and develops systems that precision-coat aerospace components, advanced optics, medical implants, solar cells, semiconductor devices and much more. Denton's technology portfolio includes thermal evaporation, ion beam etching, ion-beam-assisted evaporation, plasma-enhanced-chemical-vapor deposition (PECVD), and ion-beam-assisted deposition (IBAD) and e-beam evaporation and magnetron sputtering system (including reactive sputtering). Denton also provides value-added services and lifetime support that set new industry standards. Fifty years of tireless innovation have produced robust offerings ranging from high-volume production platforms to unique custom-engineered systems.
Techniques
Ion Beam Assisted Deposition
Ion Beam Deposition
Ion Beam Etchning
PECVD
PVD
Magnetron Sputtering
Reactive Beam Etch
Sputtering
Thermal Evaporation