- About Us
- Career Center
- Nano-Social Network
- Nano Consulting
- My Account
mPhase Technologies, Inc. (OTCBB: XDSL), a leader in the development of Smart Surfaces and advanced battery technologies, today announced that its Smart NanoBattery is showcased in the September 2010 issue of Medical Products Manufacturing News.
The magazine's September issue includes a high resolution image of mPhase's porous silicon membrane, which is a core technology of the Smart NanoBattery's ability to precisely control the flow of liquids to create a new battery design having a shelf life of over 20 years. The article describes how the Smart NanoBattery capitalizes on MEMS technology and microfluidics to enable the machining of the silicon-based materials, while microfluidics controls the flow of liquid electrolyte through the battery's porous membrane and also enables filtration and separation of the liquid. While the liquid electrolyte is initially separated from the solid electrodes, microfluidic technology enables it to move through the membrane's pores to contact the electrodes when the battery is activated. The article goes on to describe how the underlying technology for regulating the flow of liquid to create a battery also has great potential for use in non battery applications.
While a Smart NanoBattery prototype is being developed under a work-program grant sponsored by the U.S. Army under a STTR program, Ron Durando, the CEO of mPhase says that mPhase has its sights on the medical device industry. "The battery has the potential to be suitable for external and implantable medical devices," he adds. "These can include devices such as glucose monitors and drug-release devices."
Medical Products Manufacturing News, is published by Cannon Communications LLC, a an organization specializing in medical magazines, newsletters and online web site focused on informing members of the medical community on news and forward looking devices and technologies having applications in the medical industry.
The article www.qmed.com/mpmn/article/24212/smart-nanobattery-real-turn-and
As a cautionary note to investors, certain matters discussed in this press release may be forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. Such matters involve risks and uncertainties that may cause actual results to differ materially, including the following: changes in economic conditions; general competitive factors; acceptance of the Company's products in the market; the Company's success in technology and product development; the Company's ability to execute its business model and strategic plans; and all the risks and related information described from time to time in the Company's SEC filings, including the financial statements and related information contained in the Company's SEC Filing. Power Efficiency assumes no obligation to update the information in this release.
About mPhase Technologies
mPhase Technologies is introducing a revolutionary Smart Surface technology enabled by breakthroughs in nanotechnology, MEMS processing and microfluidics. Our Smart Surface technology has potential applications within drug delivery systems, lab-on-a-chip analytic systems, self-cleaning systems, liquid and chemical sensor systems, and filtration systems. mPhase has pioneered its first Smart Surface enabled product, the mPhase Smart NanoBattery.
In addition to the Smart Surface technology, mPhase recently introduced its first product, the mPower Emergency Illuminator, an award-winning product designed by Porsche Design Studio and sold via the mPower website: www.mpowertech.com.
More information about the company can be found at www.mPhaseTech.com
For more information, please click here
Phone Number: (973) 256-3737
Copyright © mPhase TechnologiesIf 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
What makes cancer cells spread? New device offers clues May 19th, 2015
Light in a spin: Researchers demonstrate angular accelerating light April 15th, 2015
Device extracts rare tumor cells using sound: Microfluidic chip developed by CMU President Suresh and collaborators uses acoustic waves to separate circulating tumor cells from blood cells April 7th, 2015
Researchers find the 'key' to quantum network solution May 25th, 2015
One step closer to a single-molecule device: Columbia Engineering researchers first to create a single-molecule diode -- the ultimate in miniaturization for electronic devices -- with potential for real-world applications May 25th, 2015
Janusz Bryzek Joins MEMS Industry Group to Lead New TSensors Division - New Division will Focus on Accelerating Development of Emerging Ultra-high Volume Sensors Supporting Abundance, mHealth and IoT May 14th, 2015
ASIC Development for MEMS Applications: A Platform Approach March 25th, 2015
This Slinky lookalike 'hyperlens' helps us see tiny objects: The photonics advancement could improve early cancer detection, nanoelectronics manufacturing and scientists' ability to observe single molecules May 23rd, 2015
Nanotherapy effective in mice with multiple myeloma May 21st, 2015
Battery Technology/Capacitors/Generators/Piezoelectrics/Thermoelectrics/Energy storage