- About Us
- Nano-Social Network
- Nano Consulting
- My Account
OKI Printing Solutions and its LED business company, OKI Digital Imaging, today announced their participation in the 4th International Nanotechnology Conference on Communication and Cooperation, to be held 14th-17th April in Tokyo, Japan.
As the world's first to achieve mass production of advanced-type LED printheads using nanotechnology for integrating CMOS and LEDs, OKI Digital Imaging will give an invited lecture in the session of ‘More than Moore - Bridge to Photonics'. The lecture will encompass that EFB technology will bring breakthrough in "Silicon photonics" and will view future prospect of EFB technology as a Bridge to Photonics. EFB technology, which has been applied to OKI Printing Solutions' printers, is a revolutionary technology specifically developed to enhance the performance and productivity of its High Definition LED printheads - setting OKI Printing Solutions apart from its competitors.
The annual International Nanotechnology Conference on Communication and Cooperation strengthens the dialogue between Japan, Europe and the United States on nanotechnology. Over 300 global senior researchers, industry leaders, policy makers and technologists will highlight nanotechnology's challenges of tomorrow and explore its links between biotechnology, advanced materials development, micro-/nano-electro-mechanical-systems and photonics.
Harushige Sugimoto, President and CEO of OKI Printing Solutions said: "We are delighted that our original EFB technology is gaining recognition as a key achievement in ‘More than Moore' theory. EFB technology will create innovative integrated device systems providing high-functionality through innovation, as opposed to pursuing advancements along the ‘Moore's Law.' We look forward to exchanging our views on future research priorities and trends in nanotechnology with global researchers to further contribute to economic growth."
OKI Printing Solutions' breakthrough EFB is a complex nanotechnology that works by releasing and bonding thin films onto dissimilar materials using intermolecular force. EFB enables to connect integrated devices with monolithic structure of thin film wirings. This reduces the need for wire bonding and significantly cuts down on the size of integrated thin film devices. EFB technology has been recognized with a range of awards and is suitable for various applications in higher density integration of dissimilar material devices.
The technology has improved LED printhead productivity and has significantly contributed to a more efficient LED printhead manufacturing process. EFB provides an enhancement to the existing LED technology, reaffirming OKI Printing Solutions' position as an innovator and pioneer.
For more information about International Nanotechnology Conference on Communication and Cooperation, visit www.inc4.jp/
About OKI Printing Solutions
Notes to editors:
> OKI Printing Solutions is the brand name of OKI Data Corporation
> OKI Printing Solutions is the global market leader in the LED printhead market, holding a 90 per cent share
> Annual turnover for OKI Data Corporation is 187.1 billion yen (approx. $1.6bn, FY06)
> OKI Printing Solutions’ sales are divided between 50% EMEA, 24% Americas, 17% Asia and Oceania and 9% Others
> OKI Printing Solutions is represented in 120 countries worldwide
> OKI Electric, established in 1881, is a Japanese electronics manufacturer with an annual turnover of 718.8 billion yen (approx. $6.1bn, FY06)
> OKI Electric employs approx. 21,380 people throughout the world with 6,975 employees outside Japan
For more information, please click here
OKI Data Corporation
Copyright © Business Wire 2008If you have a comment, please Contact us.
Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
|Related News Press|
News and information
Explaining how 2-D materials break at the atomic level January 20th, 2017
Display technology/LEDs/SS Lighting/OLEDs
Self-assembling particles brighten future of LED lighting January 18th, 2017
Miniscule amounts of impurities in vacuum greatly affecting OLED lifetime December 30th, 2016
Trace metal recombination centers kill LED efficiency: UCSB researchers warn that trace amounts of transition metal impurities act as recombination centers in gallium nitride semiconductors November 3rd, 2016
Leti Scientists Participating in Sessions on Med Tech, Automotive Technologies, MEMS, Si-photonics and Lithography at SEMICON Europa: Teams also Will Demonstrate Technology Advances in Telecom, Data Fusion, Energy, Silicon Photonics and 3D Integration October 18th, 2016
Mechanical quanta see the light January 20th, 2016
Manufacturing platform makes intricate biocompatible micromachines January 7th, 2017
Vesper a Finalist for Two ACE Awards: Ultimate Products and Innovator of the Year -- Industry’s first piezoelectric MEMS microphone and Vesper CTO Bobby Littrell recognized for prestigious electronics-industry awards November 10th, 2016
Nanometrics to Present at the 19th Annual Needham Growth Conference December 22nd, 2016
Recreating conditions inside stars with compact lasers: Scientists offer a new path to creating the extreme conditions found in stars, using ultra-short laser pulses irradiating nanowires January 12th, 2017
The researchers created a tiny laser using nanoparticles January 5th, 2017
NUS researchers achieve major breakthrough in flexible electronics: New classes of printable electrically conducting polymer materials make better electrodes for plastic electronics and advanced semiconductor devices January 14th, 2017