At this week’s VLSI 2015 Symposium in Kyoto (Japan), imec reported new results on nanowire FETs and quantum-well FinFETs towards post-FinFET multi-gate device solutions.
FUJIFILM Corporation (President: Shigehiro Nakajima) (hereafter, “Fujifilm”) and nano-electronics research institute, imec (CEO: Luc Van den hove), have demonstrated full-color organic light-emitting diodes (OLED)*1 by using their jointly-developed photoresist technology*2 for organic semiconductors, a technology that enables submicron*3patterning. This breakthrough result paves the way to producing high-resolution and large organic Electroluminescent (EL) displays and establishing cost-competitive manufacturing methods.
Today, at the IEEE IITC conference, nano-electronics research center imec and Tokyo Electron Limited (TEL) presented a direct Cu etch scheme for patterning Cu interconnects. The new scheme has great potential to overcome resistivity and reliability issues that occur while scaling conventional Cu damascene interconnects for advanced nodes.
sureCore Ltd., the low power SRAM IP company and nanoelectronics R&D center imec today announced that they are collaborating on...
At this week’s OFC 2015, the largest global conference and exposition for optical communications, nanoelectronics research center imec, its associated lab at Ghent University (Intec), and Stanford University have demonstrated a compact germanium (Ge) waveguide electro-absorption modulator (EAM) with a modulation bandwidth beyond 50GHz.
World-leading nano-electronics research center imec has announced that it will award Dr. Morris Chang, founding chairman of Taiwan Semiconductor Manufacturing Company, Limited (TSMC), the world’s first and largest semiconductor foundry, with a lifetime of innovation award. With his pioneering vision and founding of TSMC, Dr. Chang enabled the rapid growth of the fabless sector and changed the landscape of the semiconductor industry. Imec’s award recognizes Dr. Chang’s profound and unparalleled impact on the global semiconductor industry, and will be presented to him in person on June 23, in Belgium at imec’s annual Imec Technology Forum in Brussels.
Publishing in Nature Communications, scientists from Ghent University and imec have joined forces with the Max Planck Institute in Garching to realize a frequency comb light source in the mid-IR wavelength band. These frequency comb light sources with an extended spectrum can be used for real-time, extremely high resolution spectroscopy, e.g. to measure the presence and concentration of gas molecules in analytes.