Electronics and Semiconductor Industries
James Watt Nanofabrication Centre
James Watt Building
University of Glasgow
Glasgow, G12 8QQ
The James Watt Nanofabrication Centre @ Glasgow houses over £22M of nanofabrication tools in a 750m2 clean room run as a pseudo-industrial operation by 14 technicians and 4 PhD level research technologists.
Glasgow has over 30 years experience of delivering micro- and nano-fabrication (and in particular electron-beam lithography) to develop solutions in processing, nanotechnology, nanoelectronics, optoelectronics, mm-wave & terahertz, bioengineering, biotechnology, lab-on-a-chip, cleantech & energy, photovoltaics, security & defence and a host of other applications.
1645 Lyell Avenue
OLEDWorks’ mission is to empower our customers through innovative development and manufacture of the world’s best and most affordable OLED lighting devices.
8647 Eagle Creek Parkway
Soligie provides custom, robust, repeatable manufacturing solutions for printed electronics by leveraging multiple printing platforms and a deep materials knowledge and experience. Soligie partners with customers to meet their unique requirements from concept design to volume manufacturing with a continuous focus on quality management.
16 Menachem Begin St.
Gamma Building, 4th floor
StoreDot is a company with a ground-breaking technology, based on its discovery of new generation, self-assembled Nanodots of biological origin. Representing elementary biological building blocks, these multifunctional Nanodots are at the core of several patented innovations by StoreDot, and constitute the future nanotechnology and advanced nano-photonic devices, including smartphones, TV’s, energy storage devices and more.
E-53,south side industrial Area
Redex Nano Labs is an independent and indigenous manufacturer of Multiwall Carbon Nano Tube (MWCNT), Graphene Oxide,Reduced Graphene Oxide & Graphene and the variant dispersions of MWCNT and Graphene with different functional groups. We are preparing MWCNT & Graphene through Chemical and CVD route with the purity >95% up to 99% (recommended). We are having our own Patent Pending Method for the production.
We are the only bulk manufacturer in India with the production capacity of 10-15 kg/day.
Aneeve Nanotechnologies LLC
570 Westwood Plaza
Suite 6532 Building 114, MC 722710
Los Angeles, CA
Aneeve Nanotechnologies is a startup company spun-out of UCLA and USC developing nano enabled “carbon” electronics to bridge the gap between emerging and traditional technologies. The company was founded in 2007 by supplying pristinely aligned carbon to Northrop Grumman for high performance RF device applications. Aneeve is currently based on campus at the UCLA Incubator within the new $175M California NanoSystems Institute building. Aneeve’s larger mission is to develop carbon electronics for emerging markets such as low power display and wireless mobile devices.
36 S. Wasatch Drive
SMBB Rm 2500
Salt Lake City, Utah
The Utah Nanofab encompasses a class 100/1000/10,000 cleanroom, packaging, and test areas. Commissioned in 2012, the new 18,000 square foot facility provides the specialized custom-built infrastructure, equipment, processes, and expertise necessary for researchers and companies to design, build, and package revolutionary micro and nanoscale devices. Capabilities include device modeling, design layout, mask fabrication, thin film deposition, patterning, and device packaging.
Bluestone Global Tech, Ltd.
169 Myers Corners Rd.
Wappingers Falls, NY
Bluestone Global Tech (BGT), established in 2011, is dedicated to the development of graphene technology with the ultimate goal of utilizing this “wonder material” to enhance our lives. BGT has pioneered the mass production of high-quality graphene enabling the commercialization of many graphene-enhanced applications such as advanced displays, flexible electronics, and energy storage materials.
PO Box 2891
Amorphyx is an innovator at the intersection of materials science and electronics for the display market. We leveraged our expertise in amorphous metals and the creation of high-quality thin films in developing the Amorphous Metal Nonlinear Resistor (AMNR) device, subpixel circuit, and PECVD-based manufacturing process. The AMNR simplifies backplane processing and reverses the trend of increasing complexity and cost in the TFT-LCD.