Columbia, MD – August 3, 2011 – New Energy Technologies, Inc. (OTCQB: NENE) today announced that researchers developing its SolarWindow™ technology, capable of generating electricity on see-through glass, have now successfully generated electricity on flexible plastic using the Company’s ‘spray-on’ coating methods – an important technical achievement necessary for the development of electricity-generating window films.
“Today’s breakthrough supports a brand new commercial application for our core SolarWindow™ technology and is the direct result of numerous patent-pending methods, materials, and processes we have worked hard to invent and develop,” explained Mr. John A. Conklin, President and CEO of New Energy Technologies, Inc.
“These important technology breakthroughs have already resulted in a successful public demonstration last year of our SolarWindow™ application on glass, able to generate electricity while remaining see-through. Since then, New Energy’s product development group has worked aggressively to advance our SolarWindow™ application for glass windows towards commercial manufacturability. Concurrently, our research scientists have been working to create new and exciting SolarWindow™ products which reach beyond glass. The result is today’s announcement regarding our ability to generate electricity on flexible plastics.”
Scientists anticipate that commercially developed electricity-generating flexible plastic could be deployed as tinted window film, which remains see-through while generating electrical power. Traditionally, the prospect of creating see-through flexible plastic which generates electricity has been limited by numerous technical challenges, including the need for cumbersome temperature-specific, pressure sensitive, and expensive process methods for applying coatings to plastic surfaces.
New Energy researchers achieved today’s breakthrough by spraying the Company’s electricity-generating coatings onto flexible, lightweight lab-scale plastic (polyethylene terephthalate or “PET”) at room temperature and at low pressure, which may result in reduced manufacturing costs. While developing the first working PET prototype, researchers also overcame conventional issues with surface preparation, considered vital to achieving maximum strength of the coatings’ bond to the surface, and for optimizing product durability and lifespan.
Notably, researchers were able to maintain the working ‘architecture’ of New Energy’s SolarWindow™ while achieving flexibility. The SolarWindow™ architecture enables various important functions such as generating electricity on the surface of plastic and distributing electricity to the circuit.
Currently under development for eventual commercial deployment in the estimated 85 million commercial buildings and homes in America, SolarWindow™ is the subject of ten new patent filings and is the world’s first-of-its-kind technology capable of generating electricity on see-through glass windows.
SolarWindow Technologies, Inc. is a developer of next generation, transparent electricity-generating SolarWindow™ coatings.
SolarWindow™ coatings generate electricity on see-through glass and flexible plastics with colored tints popular to skyscraper glass. Unlike conventional systems, SolarWindow™ can be applied to all four sides of tall towers, generating electricity using natural and artificial light conditions and even shaded areas. SolarWindow™ uses organic materials, which are dissolved into liquid, ideal for low-cost high-output manufacturing; and is the subject of a patent pending technology.
The company’s Proprietary Power Production & Financial Model (Power & Financial Model) uses photovoltaic (PV) modeling calculations that are consistent with renewable energy practitioner standards for assessing, evaluating and estimating renewable energy for a PV project. The Power & Financial Model estimator takes into consideration building geographic location, solar radiation for flat-plate collectors (SolarWindow™ irradiance is derated to account for 360 degree building orientation and vertical installation), climate zone energy use and generalized skyscraper building characteristics when estimating PV power and energy production, and carbon dioxide equivalents. Actual power, energy production and carbon dioxide equivalents modeled may vary based upon building-to-building situational characteristics and varying installation methodologies.
For additional information, please call Ms. Briana L. Erickson toll free at 1-800-213-0689 or visit: www.solarwindow.com.
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No statement herein should be considered an offer or a solicitation of an offer for the purchase or sale of any securities. This release contains forward-looking statements that are based upon current expectations or beliefs, as well as a number of assumptions about future events. Although SolarWindow Technologies, Inc. (the “company” or “SolarWindow Technologies”) believes that the expectations reflected in the forward-looking statements and the assumptions upon which they are based are reasonable, it can give no assurance that such expectations and assumptions will prove to have been correct. Forward-looking statements, which involve assumptions and describe our future plans, strategies, and expectations, are generally identifiable by use of the words “may,” “will,” “should,” “could,” “expect,” “anticipate,” “estimate,” “believe,” “intend,” or “project” or the negative of these words or other variations on these words or comparable terminology. The reader is cautioned not to put undue reliance on these forward-looking statements, as these statements are subject to numerous factors and uncertainties, including but not limited to adverse economic conditions, intense competition, lack of meaningful research results, entry of new competitors and products, adverse federal, state and local government regulation, inadequate capital, unexpected costs and operating deficits, increases in general and administrative costs, termination of contracts or agreements, technological obsolescence of the company's products, technical problems with the company's research and products, price increases for supplies and components, litigation and administrative proceedings involving the company, the possible acquisition of new businesses or technologies that result in operating losses or that do not perform as anticipated, unanticipated losses, the possible fluctuation and volatility of the company's operating results, financial condition and stock price, losses incurred in litigating and settling cases, dilution in the company's ownership of its business, adverse publicity and news coverage, inability to carry out research, development and commercialization plans, loss or retirement of key executives and research scientists, changes in interest rates, inflationary factors, and other specific risks. There can be no assurance that further research and development will validate and support the results of our preliminary research and studies. Further, there can be no assurance that the necessary regulatory approvals will be obtained or that SolarWindow Technologies, Inc. will be able to develop commercially viable products on the basis of its technologies. In addition, other factors that could cause actual results to differ materially are discussed in the company's most recent Form 10-Q and Form 10-K filings with the Securities and Exchange Commission. These reports and filings may be inspected and copied at the Public Reference Room maintained by the U.S. Securities & Exchange Commission at 100 F Street, N.E., Washington, D.C. 20549. You can obtain information about operation of the Public Reference Room by calling the U.S. Securities & Exchange Commission at 1-800-SEC-0330. The U.S. Securities & Exchange Commission also maintains an Internet site that contains reports, proxy and information statements, and other information regarding issuers that file electronically with the U.S. Securities & Exchange Commission at http://www.sec.gov. The company undertakes no obligation to publicly release the results of any revisions to these forward looking statements that may be made to reflect the events or circumstances after the date hereof or to reflect the occurrence of unanticipated events.