Electronics and Semiconductor Industries
Thin Film Electronics ASA (“Thinfilm”) has 15 years of experience in the field of non-volatile memories using functional polymers. Thinfilm’s unique all-printed re-writable products are ideal for use in standalone consumer applications, including personalized toys and online-enabled games. They can also be integrated with logic elements, sensors, batteries, and displays for mass market applications such as all-printed RFID tags. The proven high volume roll-to-roll production of TFE’s printed memories provides the platform for its Memory Everywhere™ vision.
Our lab is conducting research in the area of micro- and nanophotonics, organic solar cells, nanomanufacturing processes, and photonic-based ultrasound imaging technologies. Research Highlights:
* Roll to roll printed polymer organic solar cell based on a new ESSENCIAL technique;
* Multifunctional plasmonic color filters;
* High efficiency optoacoustic source based on CNT-PDMS composite;
* Ultra-high sensitivity polymer microring ultrasound detector;
* Spontaneous micropattern creation by localized wrinkling effect;
Magzor’s vision is to manufacture machines which enable the fabrication of meso and micro-scale devices at room temperature. These devices can have mechanical electrical and/or magnetic properties. Magzor is realizing this vision by developing novel electroforming systems and techniques which require the optimization of chemistry, the physical electroplating system and (chemical reaction) feedback systems. This allows chemistry at the reaction face to be monitored and altered in real-time. It is only with this degree of control that material stoichiometry can be maintained.
The CAMM was established in 2005 when the Flex Tech Alliance (formerly the United States Display Consortium) selected Binghamton University, a global leader in electronics packaging and small scale systems integration, in partnership with Endicott Interconnect Technologies Inc, and Cornell University, to spearhead development of next generation roll-to-roll (R2R) electronics manufacturing capabilities. A unique collaborative effort, the CAMM brings together partners from government, industry and academia to tackle the myriad challenges of this emergent technology.
Carestream Advanced Materials developed FLEXX films by applying more than 100 years of expertise in nanomaterial science, thin-film technology and roll-to-roll coating know-how. Our new films feature an innovative silver nanomaterial technology that allows for exceptional conductance and superior optical performance.
CHASM Advanced Materials Inc. (CHASM) produces Signis few-wall and single-wall and carbon nanotubes using the patented CoMoCAT® catalytic method in fluidized bed reactors. The CoMoCAT method is proven for the scalable selective synthesis of carbon nanotubes with remarkable control of diameter, chirality and purity. These CNT products are ideally suited for commercial application in battery materials, thin-film transistors, transparent conductive films, NRAM and more.
Cellergy designs, develops and produces Electrochemical Double Layer Capacitors (EDLC), known as Super-capacitors or Ultra-capacitors for the industrial, consumer, mobile, and medical electronic markets and applications.
Cellergy is a first-class leader in the domain of low voltage, high current and high capacity Aqueous Electrolyte Super-capacitors for pulse applications. Cellergy’s breakthrough proprietary screen printing process enables the delivery of cost-effective, energy-saving, high-performing, customizable and environmentally safe Super-capacitors.