- About Us
- Career Center
- Nano-Social Network
- Nano Consulting
- My Account
Well-Received Presentation by Kevin Leonard Is Now Available on Enable IPC's Website
Enable IPC Corporation (OTCBB: EIPC) today announced that it has posted the presentation given by Kevin Leonard at the nanoTX '07 event in Dallas, Texas, on the company's ultracapacitor technology to its website. The presentation showcased the significant advances the company has made in its ultracapacitor technology commercialization effort.
Mr. Leonard is CEO of SolRayo, a research and development firm working with Enable IPC under a joint development agreement. He is also one of the inventors of the ultracapacitor technology.
The presentation, located at http://www.enableipc.com/files/nanoTX_leonard_presentation.pdf , consists of slides accompanied by Mr. Leonard's narration.
On October 9th, EIPC announced that we had more than doubled our performance expectations on the ultracapacitor technology, consistently achieving over 6,000 farads per liter of material in packaged devices. The company unveiled its prototype, packaged ultracapacitor device at the nanoTX '07 conference in Dallas, October 3rd and 4th. The response from those attending was overwhelmingly positive.
In addition, Market News First (MN1.com) covered nanoTX '07 and have featured Enable IPC in a short video segment about the conference available at http://www.youtube.com/watch?v=nOcx0gyQpsU
To receive corporate updates and be added to Enable IPC's corporate e-mail list for shareholders and interested investors, please send an e-mail to .
About Enable IPC
Enable IPC Corporation has a patent application on a proprietary concept that combines thin film manufacture with nanotechnology to produce a microbattery that the company believes will significantly out perform comparable products and revolutionize the microbattery industry. The company's product is expected to be smaller, cheaper, longer lasting, and more environmentally friendly than comparable existing products. The microbattery is ideal for use in multiple applications including healthcare products, RFID tags, and smart cards.
Forward-Looking Statements: This release contains forward-looking statements, such as "believes," "expected" and similar terminology, which are made pursuant to the safe harbor provisions of the Private Securities Litigation Reform Act of 1995. These forward-looking statements involve risks and uncertainties which could cause actual results that the Company achieves to differ materially from any of the forward-looking statements. Such risks and uncertainties, include, but are not limited to, the following: the timely development and market acceptance of products and technologies, the ability to secure additional sources of financing, the difficulties in forecasting results from development efforts, difficulties in accurately estimating market growth, the impact of changing economic conditions, business conditions in the microbattery industry and others identified in our Annual Report on Form 10-KSB, as amended, and other Securities and Exchange Commission filings. The company undertakes no obligations to revise or update any forward-looking statements in order to reflect events or circumstances that may arise after the date of this release.
For more information, please click here
Enable IPC Corporation
Copyright © Market WireIf 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|
Nanoscale photodetector shows promise to improve the capacity of photonic circuits: Researchers at the University of Rochester have fabricated a device in which light can induce a current using a silver nanowire -- an important step toward harnessing light to speed up the next ge October 6th, 2015
Battery Technology/Capacitors/Generators/Piezoelectrics/Thermoelectrics/Energy storage
Fractals aid efforts to understand heat transport at nanoscale October 6th, 2015
Extending a battery's lifetime with heat: Researchers from California Institute of Technology find that heat can break down the damaging branch-like structures that grow inside batteries, which may possibly be used to extend battery lifetimes October 4th, 2015
A micro-supercapacitor with unmatched energy storage performance September 30th, 2015
Nano-mechanical study offers new assessment of silicon for next-gen batteries September 25th, 2015