Watch NNSR Trade This Morning!

Thursday September 21, 2006

After the market closed on Wednesday September 20th,

 Design Review on NanoSensors’ Product to Detect E-Coli 

Once again, NanoSensors, Inc. (OTCBB: NNSR) released news that should have the attention of speculative investors this morning.Yesterday after the stock markets closed, the company, a nanotechnology development company that develops instruments and sensors to detect explosives, chemical and biological agents, issued a press release announcing that it has commenced the design review on the company’s planned product to detect e-coli.   

This additional news may continue to have the attention of traders. The product will be based on the company’s recently licensed nanoporous silicon-based biosensor technology to detect selected bacteria.  One of the bacteria covered in the field of use by the company’s license is e-coli.  

The proposed product is expected to consist of two core functional parts. A disposable housing unit in which the actual sensor device would be mounted on a secured and sealed platform and a data acquisition unit is the second core part of the device and has been designed to accept the output signal from the disposable housing unit, convert the signal to the appropriate format and to display the results.  The preliminary designs of both parts have been completed and the design review by management and its technical consultants is being performed. 

This continues to be a stock for speculative investors to watch! “We are very excited about the engineering and design of the Company’s first biosensor product” stated Dr. Ted Wong, the Company’s Chief Executive Officer.  “We have engaged a talented team of engineers to assist us with the design review process and to take the design to the prototype stage,” continued Dr. Wong.  “Although the design review process can uncover flaws which could require revisions to the proposed product design, we anticipate that the first prototypes of the e-coli product will be completed well within budget and schedule and to be ready for laboratory testing by our consultant in November.”
Watch This Company!

Tremendous Opportunity
Nanosensors believes that the demand for nanotechnology sensors will be one of the fastest growing industries in the world over the next few years. The Company expects that billions of dollars of governmental the Department of Homeland Security and Foreign Governments and private sector expenditures will increase demand for security products and services.

The President's FY 2004 budget provides $847M for the multi-agency National Nanotechnology Initiative (NNI) a 9.5% increase over the $774M in funding for FY '03. Significant increases are proposed for the Department of Energy and the National Science Foundation (NSF) budgets for NNI activities. NSF continues to have the largest share of U.S. federal nanotechnology funding. Circa 2001, NSF projected that the total market for nanotechnology products and services will reach $1T by 2015.

The global market for applications for single-wall carbon nano-tubes was less than $10M in 2002 and is projected to exceed $200M in 2007, according to Business Communications Co., Inc.'s (Norwalk, CT, 203-853-4266) Nanotubes: Directions and Technologies report.

Competitive Edge
Nanosensors can obtain rights to valuable intellectual property without having to pay for all of the overhead costs associated with R&D.

Nanosensors develop products and are interested in commercializing solutions with dual-use applications that are able to serve both government and commercial customers.

With respect to subsidiaries, by forming companies in their initial start-up rather than investing in them at a later stage, the Company can capture a larger piece of potential revenue streams at a lower cost.

As a public company, Nanosensors can access the public markets for the purpose of raising capital and provide meaningful incentives in the form of stock options to attract the most talented managers and scientists.

Nanosensors’ has three strategic components to its acquisition strategy:
1) IP Acquisition (Post-Revenue): Acquire non-core intellectual property and tangible assets from corporations that will be income and balance sheet accretive.

2) IP Commercialization (Pre-Revenue): Acquire intellectual property assets, patents, licenses, and source code for solutions that are still in development, but less than twelve months away from generating revenue.

3) University & Government R&D: Identify patented or patent-pending technologies at universities or government labs and fund additional development of those technologies in exchange for exclusive rights to commercialize the resulting prototypes. Leveraging the resources and infrastructure of these institutions provides the Company with a highly cost-effective development pipeline.

Nanosensors, Inc., was incorporated in 2003 and is a publicly-traded nanotechnology development company based in Santa Clara, California. The Company develops and markets nanotechnology sensors to detect explosive (X), chemical (C), and biological (B) agents (“XCB”), along with the management of intellectual property. These sensors will be able to detect explosives, chemicals and biological agents at concentrations of between 10 and 100 parts-per-million. Today, high-voltage sensors detect agents between 1 to 1,000 parts-per-million.

Products
Present detection sensors and instruments that are being used today by the government, military and private sector provide low sensitivity, take up too much space, have a high cost and require a high level of supervision. Nanosensors will employ a range of sensor technologies; first in individual sensors and then in arrays of sensors that will measure multiple agents. The Company’s sensors will be designed to first detect explosive (X) and then chemical (C) followed by biological (B) agents.

Nanosensors’ first sensor is the M10, and it was developed over a one year period through the integration of several technologies, that include conductivity and spectrum sensors. Conductivity sensors detect a change in electrical characteristics, such as resistance or conductivity, if the individual is concealing explosive material. Spectrum sensors use a pattern as a reference for a species being detected, and if the signal compares with a reference pattern, then the particular specie is identified. The M10 was created to be imbedded in two instruments that include:

1. Conductivity Sensors:
Hand-held wands that are used to screen people for explosives as then enter public facilities.

2. Spectrum Sensors:
Door frames that act as magnetic detectors and are used to screen individuals as they enter airports, government facilities and office buildings.