Nantero Announces Routine Use of Nanotubes in Production CMOS Fabs

This was due to several historic obstacles that prevented their use, including a previous inability to position them reliably across entire silicon wafers and contamination previously mixed with the nanotubes that made the nanotube material incompatible with semiconductor fabs.

Nantero has developed a method for positioning carbon nanotubes reliably on a large scale by treating them as a fabric which can be deposited using methods such as spincoating, and then patterned using lithography and etching, all common CMOS processes present in every semiconductor fab. Nantero has been issued patents on all the steps in the process, as well as on the article of the carbon nanotube fabric itself, US Patent No.

6,706,402, “Nanotube Films and Articles,” by the US Patent and Trademark Office. The patent relates to the article of a carbon nanotube film comprised of a conductive fabric of carbon nanotubes deposited on a surface.

Nantero has also developed a method for purifying carbon nanotubes to the standards required for use in a production semiconductor fab, which means consistently containing less than 25 parts per billion of any metal contamination.

With these innovations, Nantero has become the first company in the world to introduce and use carbon nanotubes in mass production semiconductor fabs.
.
Nantero is developing NRAM™ –a high-density nonvolatile random access memory device. NRAM™ is a ‘universal memory’ that is slated to replace all existing forms of storage, such as DRAM, SRAM and flash memory. The revenue potential for NRAMTM, adds up to over $100B when replacing the memory in applications such as cell phones, MP3 players, digital cameras, and PDAs, as well as in networking applications. NRAMTM will also enable the instant-on feature in computers which will eliminate the initialization period when computers are turned on. NRAM™ can be manufactured both as standalone devices and as embedded memory in application- specific devices such as ASIC and microcontrollers.

Greg Schmergel, CEO and Co-Founder of Nantero noted “Nantero has developed the full suite of solutions required to use carbon nanotubes in a mass production environment today, and this is being proven every day not in theory, but in practice. Our CMOS-grade carbon nanotube formulation and processes for handling them reliably PDF created with pdfFactory Pro trial version http://www.pdffactory.com across 200mm silicon wafers is being practiced today and enables the development of our NRAM as well as carbon nanotube-based products from many other companies as well.”

Source: Nantero

'Nanonet' circuits closer to making flexible electronics reality
Researchers have overcome a major obstacle in producing transistors from networks of carbon nanotubes, a technology that could make it possible to print circuits on plastic sheets for applications including flexible displays and an electronic skin to cover an entire aircraft to monitor crack formation.
First STM spectroscopy of graphene flakes yields new surprises
(PhysOrg.com) -- Scientists at the U.S. Department of Energy's Lawrence Berkeley National Laboratory and the University of California at Berkeley have performed the first scanning tunneling spectroscopy of graphene flakes equipped with a "gate" electrode. The result is the latest in a series of surprising insights into the electronic behavior of this unique, two-dimensional crystal form of carbon: an unexpected gap-like feature in the energy spectrum of electrons tunneling into graphene's single layer of atoms.
Hydrogen generation without the carbon footprint
A greener, less expensive method to produce hydrogen for fuel may eventually be possible with the help of water, solar energy and nanotube diodes that use the entire spectrum of the sun's energy, according to Penn State researchers.
Engineers show nanotube circuits can be made en masse
Most innovations don't go far unless there is a way to turn them into products that are manufacturable on a mass scale. That's why new research on carbon nanotubes, presented June 19 by a group of Stanford electrical engineers, is likely to draw industry attention.
Carbon nanoribbons could make smaller, speedier computer chips
Stanford chemists have developed a new way to make transistors out of carbon nanoribbons. The devices could someday be integrated into high-performance computer chips to increase their speed and generate less heat, which can damage today's silicon-based chips when transistors are packed together tightly.
Sandia researcher examines the physics of carbon nanotubes
Carbon nanotubes, described as the reigning celebrity of the advanced materials world, are all the rage. Recently researchers at Rice University and Rensselaer Polytechnic Institute used them to make the “blackest black” — the darkest known material, reflecting only 0.045 percent of all light shined on it.
Nanotubes grown straight in large numbers
Duke University chemists have found a way to grow long, straight cylinders only a few atoms thick in very large numbers, removing a major roadblock in the pursuit of nano-scale electronics.
Researchers Make Breakthrough in Nanotechnology by Uncovering Conductive Property of Carbon-based Molecules
University of Pittsburgh researchers have discovered that certain organic—or carbon-based—molecules exhibit the properties of atoms under certain circumstances and, in turn, conduct electricity as well as metal. Detailed in the April 18 edition of Science, the finding is a breakthrough in developing nanotechnology that provides a new strategy for designing electronic materials, including inexpensive and multifunctional organic conductors that have long been considered the key to smaller, cheaper, and faster technologies.

Nantero Announces Routine Use of Nanotubes in Production CMOS Fabs

Related stories:

News discussion: