mPhase Technologies, Inc., is a publicly-held New Jersey company founded in 1996 with over 19,000 shareholders and approximately 440 million shares of common stock outstanding as of June 30, 2008. The Company's common stock is traded on the Over the Counter Bulletin Board under the ticker symbol XDSL.

mPhase is a development company specializing in microfluidics, microelectromechanical systems (MEMS) and nanotechnology. Through its wholly owned subsidiary AlwaysReady, Inc., mPhase is commercializing its first nanotechnology-enabled product for military and commercial applications - The Smart NanoBattery providing Power On Command™. The new well-patented battery technology, based on the phenomenon of electrowetting, offers a unique way to store energy and manage power.. Features of the Smart NanoBattery include: potentially infinite shelf life, environmentally friendly design, fast ramp to power, programmable control, and direct integration with microelectronic devices.

The platform technology behind the Smart NanoBattery is a porous nanostructured material used to repel and precisely control the flow of liquids. The material has a Smart Surface that can potentially be designed for self-cleaning applications, water purification/desalination, liquid filtration/separation, and environmental cleanup.

mPhase has been awarded a Phase II Small Business Technology Transfer Program (STTR) grant, part of the Small Business Innovation Research (SBIR) program, from the U.S. Army for continued development of a reserve Smart NanoBattery for a critical computer memory application.

mPhase is headquartered in Little Falls, New Jersey, with additional offices in Norwalk, Connecticut, and New York, New York.

Also in July of 2007, mPhase formed a new wholly-owned subsidiary, Always Ready, Inc., to focus on the development of its nanotechnology products. The Company has used this subsidiary as a division of the Company in order to develop increasing brand recognition of its battery product. The Company decided in September of 2007 to transfer its development work out of Bell Labs (Alcatel/Lucent) in order to broaden its nanotechnology product commercialization efforts. In terms of the battery, Bell Labs was no longer sufficient because they had no in-house means to handle lithium chemistry. mPhase/AlwaysReady continued to work with Rutgers ESRG which could work with lithium, but also engaged in work with other companies to supply essential components , fabricate prototypes, and plan manufacturing approaches. These companies included a well-respected silicon foundry and battery manufacturer.

In February of 2008, the Company announced that a prototype of its Smart NanoBattery was successfully deployed in a gun-fired test at the Aberdeen Proving Ground at Maryland. The test was conducted by the U.S. Army Armament Research and Development and Engineering Center (ARDEC) of Picatinny, New Jersey. The battery not only survived the harsh conditions of deployment at a gravitational force in excess of 45,000 g , but was also flawlessly activated in the process .

Also, in April of 2008, the Company announced that it had successfully produced its first lithium-based reserve battery with a soft or pouch package and breakable separator (in place of the electrowettable membrane) that relies on mechanical rather electrical activation to provide Power On Command™. The Company believes that it is a significant milestone in moving from a low energy density zinc-based battery to a higher energy density lithium-based battery towards proving that the Smart NanoBattery will eventually be economically and commercially viable.

In March of 2005, the Company entered into a second Development Agreement for 12 months at a cost of $1.2 million with the Bell Labs to develop MEMS-based ultrasensitive magnetic sensor devices, also known as magnetometers, that could be used in military and commercial electronics (e.g., cell phones) for determining location, as well as in portable security and metal detection applications. The agreement was renewed in April of 2006 for another 12 months. Although proven to work in the lab, the magnetometer technology could not be scaled up as quickly and as cost effectively as the battery. The project was shelved in September 2007 so that all technical resources could be allocated to the battery project.

The surface is an important part of virtually every physical object and often plays an overriding role in many processes, beyond just connectivity and structural support, but more deeply into areas involving chemical and biological interactions. In some instances, the surface provides an easy entry into the chemical or biological systems, in others it protects the internal elements of the object, surrounded by the surfaces.

mPhase's platform technology is the Smart Surface. By being able to control the surface properties of materials down to the nanometer scale, new and improved devices can be designed and built that may lead to compelling business opportunities. One type of smart surface of particular interest allows the properties to be changed in response to an external stimulus.

Initially, mPhase's development focused on MEMS devices by manipulating the surface of silicon materials – the same material used to make microelectronic materials and devices. Using physical and chemical processes, the surface of the silicon is modified to make solid porous structures known as membranes. This is where microfluidics comes into play. These membranes can be used to selectively control the flw of liquids through the pores or openings at the micrometer length scale.

Surfaces may be characterized as hydrophilic or hydrophobic depending on whether or not they attract or repel water (or other liquids). A hydrophilic surface can be wet and adsorbs water. A hydrophobic surface, on the other hand, cannot be wet. Hydrophilic and hydrophobic surfaces are abundant in nature and in synthetic materials, both organic and inorganic in chemical composition. A familiar example of a hydrophilic surface is a sponge that readily soaks up water. By contrast, many plant leaves and flower petals are hydrophobic, as are insect parts and bird feathers. Synthetic hydrophobic surfaces include Scotchgard™ treated fabric, Teflon® coated metal, or Rain-X® coated glass. On a hydrophobic surface, water beads up and can move around without being absorbed by the solid material that it is resting on.

So-called superhydrophobic surfaces are also found in nature and can now be replicated in the lab. The lotus leaf and rose petal, for example, exhibit superhydrophobicity. Here water droplets form almost perfect spheres with hardly any contact with the underlying solid surface. This makes the liquid even easier to move and manipulate.

The synthesis of superhydrophobic surfaces has recently been made possible by advances in nanotechnology and mPhase is leading the way to better understand and create materials and devices incorporating these unique surface properties.

As mPhase's research and development efforts evolve, in addition to silicon materials, the ability to control the surface properties of materials can be extended to other substances such as polymers, ceramics, metals and fibers as examples, providing opportunities for our platform technology to be used in a range of potential applications such as energy storage and power management for portable electronics and microelectronics, self-cleaning surfaces, filters for water purification or desalination systems, materials for environmental remediation that separate liquids or solvents, and other situations where the control of the interaction of a solid surface exposed to a liquid is vitally important.

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Battery technology has changed little in its fundamentals over the past 150 years. As a result, ordinary batteries begin dissipating energy as soon as they are assembled and therefore have limited shelf life. Chemistries are fixed inside the package so the user cannot interact with the contents to program functionality. The size and form of batteries have not kept pace with the miniaturization of electrical components, microprocessors and integrated circuits. As a result, the optimal implementation of an electronic device is not always achieved. Some batteries contain chemicals that are not considered safe or environmentally friendly ("green"). This makes disposal a potential issue.

mPhase is challenging this convention by using their proprietary superhydrophobic porous silicon membrane technology as the basis to build the Smart NanoBattery providing Power On Command™.

Superhydrophobicity initially keeps the liquid electrolyte physically separated from the solid electrodes of the battery, thus preventing the chemical reactions from occurring that cause the battery to provide power. This gives the Smart NanoBattery the benefit of potentially infinite shelf life.

A conventional battery loses some capacity while sitting on the shelf in its package or stored in an electronic or electrical device, even before being used for the first time. On the other hand, the Smart NanoBattery is built so that it is inactive and remains that way indefinitely until it is turned on. No power is lost to self-discharge or leakage current prior to activation. When needed, the Smart NanoBattery can be activated on command via the phenomenon of electrowetting. The surface properties of the porous silicon membrane are selectively controlled to shift instantly from a superhydrophobic to hydrophilic state. In other words, electrowetting acts as the triggering mechanism.

mPhase has successfully fabricated and demonstrated its first 3-volt lithium-based Smart NanoBattery, based on a design allowing either manual or remote activation by the user, the feature known as Power on Command™.

By incorporating the phenomenon of electrowetting on nanostructured surfaces into a revolutionary way of storing energy, the Smart NanoBattery provides power to portable electronic and microelectronic devices exactly when and where it is needed. It is an alternative and an augmentation to conventional batteries, still converting stored chemical energy into usable electrical energy, but in a way that is potentially more reliable, more versatile, more environmentally friendly, and less expensive than the industry norm.

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Applications

mPhase is exploring military and commercial applications of smart surfaces in which the properties can be accurately and precisely controlled down to the nanometer scale. Electrowetting allows the switching from a hydrophobic to hydrophilic state as a result of an electronic stimulus.

The Smart NanoBattery, mPhase's first smart surface product, has a unique architecture that enables a shelf life of decades, remote activation, programmable control, scalable manufacturing, and adaptability to multiple configurations. The value proposition to the end user is to have a source of energy or power that is literally always ready - reliable, convenient, low cost - a battery guaranteed to work at full capacity when and where you need it.

The Smart NanoBattery can conceivably supply power "on command" to a wide variety of portable electronic and microelectronic devices used in military, medical, industrial, and consumer applications.

mPhase has already proven that the battery works in lab tests as well as in a significant field test conducted for the U.S. Army as part of a guided munitions project. The relationship with the Army also includes a $850,000 funded project to develop a battery for a mission critical computer memory backup application. The target is a small footprint, 3-volt lithium battery with a minimum shelf life of 20 years and uninterruptible power output during this time period. No other battery technology available today can deliver the long-term performance requirements specified by the U.S. Army for this application.

The Smart NanoBattery can potentially be designed to accommodate a variety of sophisticated portable electronic and microelectronic devices including next-generation cell phones and PDAs, handheld gaming devices, wireless sensor systems, RFID tags, high-tech flashlights and beacons, health alert alarms, and non-implantable and implantable medical devices such as pacemakers.

Initial applications will address the need to supply emergency and backup power to a range of products for defense and security, with future applications in the commercial and consumer arenas.

As its first commercial product, mPhase is developing an emergency flashlight using a simplified version of the Smart NanoBattery with a patent-pending breakable separator in place of the electrowettable membrane. The emergency flashlight is envisioned as a compact device that would be activated with a simple push-button switch to provide Power On Command™ in the event of an emergency. The device would be ideal for storing in the glove compartment of a car, on boats, trains or planes, coupled with fire extinguishers, packed with safety, first aid and survival kits.

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Business Development, Organization, and Acquisition Activities

mPhase was incorporated in New Jersey in 1979 under the name Tecma Laboratory, Inc. In 1987, the Company changed its name to Tecma Laboratories, Inc. As Tecma Laboratories, Inc., the Company was primarily engaged in the research, development and exploration of products in the skin care field. On February 17, 1997, the Company acquired Lightpaths, Inc., a Delaware corporation, which was engaged in the development of telecommunications products incorporating DSL technology, and the Company changed its name to Lightpaths TP Technologies, Inc.

On January 29, 1997, the Company formed another wholly-owned subsidiary called TLI Industries, Inc. The shares of TLI were spun off to its stockholders on March 31,1997 after the Company transferred the assets and liabilities, including primarily fixed assets, patents and shareholder loans related to the prior business of Tecma Laboratories. As a consequence of these transactions, the Company became the holding company of its wholly-owned subsidiary, Lightpaths, Inc. on February 17, 1997.

On May 5, 1997, the Company completed a reverse merger with Lightpaths TP Technologies, Inc. and thereafter changed its name to mPhase Technologies, Inc. on June 2, 1997.

On March 26, 1998, the Company entered into a Licensing Agreement with Georgia Tech Research Corporation ("GTRC") in which mPhase became the exclusive licensee of all patents received by GTRC in connection with development of the legacy Traverser DVDDS. GTRC is entitled to receive a royalty equal to 5% of gross sales of the Traverser DVDDS and 30% of any "lump sum payments" received in connection with revenues received by mPhase from the Traverser DVDDS product under the terms of its license, as amended. The Traverser DVDDS has been replaced by the Company's IPTV solution.

On June 25, 1998, mPhase acquired Microphase Telecommunications, Inc., a Delaware corporation, from Microphase Corporation by issuing 2,500,000 shares of its common stock. Microphase Telecommunications' principal assets were patents and patent applications utilized in the development of its proprietary Traverser technology.

In March 2000, mPhase entered into a joint venture with AlphaStar International, Inc. to form an entity called mPhaseTelevision.Net, Inc. in which the Company held a 50% interest. On May 1, 2000, the Company acquired an additional 6.5% interest in mPhaseTelevision.Net, Inc. and made it one of its consolidated subsidiaries.

On March 14, 2000, mPhase entered into an agreement with BMW Manufacturing Corp., located in South Carolina. Under the agreement, the Company installed its legacy Traverser DVDDS product for BMW's telephone transmission network at an automotive manufacturing plant to enable video broadcast of information to its employees. Such system was replaced with a competitor's network during fiscal year 2007.

In December of 2001, Hart Telephone company located in Hartwell, Georgia completed the building and development of its digital headend enabling Hart to test the Company's legacy Traverser DVDDS product with approximately 20 customers receiving about 80 channels of television services utilizing such platform.

In May of 2002, mPhase initiated discussion for development of a cost-reduced set top box (INI) with the Bell Laboratories division of Lucent Technologies, Inc.

Effective December 1, 2002, mPhase entered into a Development Agreement with the Bell Laboratories division of Lucent Technologies, Inc. for the development of mPhase's broadcast television switch as an integrated platform with the Lucent Stinger DSL Access Concentrator.

On December 9, 2002, pursuant to a Statement of Work, Lucent commenced development of the Broadcast Television Switch for mPhase. On December 15, 2002, mPhase engaged Lucent for the cost reduction of its Traverser INI set top box.

On January 21, 2003 mPhase entered into a Co-Branding Agreement with Lucent Technologies under which mPhase's INI set top box would be co-branded with the Lucent Technologies name and logo.

On April 4, 2003, mPhase entered into a Systems Integration Agreement with Lucent Technologies. Under the terms of such an agreement mPhase has been given the exclusive rights to sell worldwide as a 'bundled' solution the Stinger in connection with mPhases's BTS.

Effective September 15, 2003, mPhase entered into a Development Agreement with the Bell Laboratories division of Lucent Technologies, Inc. that has been extended through December of 2005 pursuant to additional Statements of Work under such Development Agreement for development of its IPTV solution.

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Effective February 3, 2004, mPhase entered into a Development Agreement with the Bell Laboratories division of Lucent Technologies, Inc. for the development of micro power source arrays fabricated using nanotextured superhydorphobic materials.

On November 28, 2004, mPhase entered into a Software License Agreement with Espial Group, Inc to be used in the set top box of its TV+ solution. Espial Group, Inc. is a leader in system operating software for set top boxes used to receive IPTV.

On January 3, 2005, mPhase entered into a work order with Magpie Telecom Insiders, Inc. pursuant to the terms of a Software Development Agreement dated September 2, 2004 for purposes of adding video on demand to its TV+ solution.

Effective March 5, 2005, mPhase extended its Development Agreement with Bell Labs for an additional 12 months for the development of micro power source power arrays.

Effective March 10, 2005, mPhase entered into a Development Agreement with the Bell Laboratories division of Lucent Technologies Inc. for the development of a new generation of magnetic field sensors using the science of nanotechnology.

In April of 2006, mPhase renewed each of the nanotechnology agreements with Bell Labs dated March 5, 2005 and March 10, 2005, respectively, for an additional 12 months at the cost of $100,000 per month each.

In May of 2006, the Development Agreement with the Bell Labs division of Lucent Technologies, Inc. covering the Company's TV+ solution was not renewed by the Company and Velankani, a software designer headquartered in India, assumed responsibilities for development of the system management software object code and system integration of the Company's TV+ solution. The Company has been working with Velankani for system integration testing since January of 2006.

On June 27, 2006, the Company entered into Amendment No. 4 to a Software License Agreement with Espial Group, Inc. which extended the term of its original development agreement through 2008 for Software development and support of the TV+ software in connection with multiple set top boxes of various vendors.

On September 13, 2006, the Company announced its first test of it IPTV solution with Comstar/Odessa, a major telecommunications service provider in the Ukraine for a trial deployment of our IPTV solution. Upon successful completion of such trial, it is anticipated that a 6,000 subscriber deployment would follow generating the Company's first revenues with respect to its IPTV solution.

As of November 14, 2006, the Company entered into a Common Amendment to its Statement of Work with Velankani Systems Technologies, Inc. rescheduling certain payments due for software integration services for the Company's IPTV solution performed by Velankani for mPhase including a conversion of a portion of the outstanding payable to mPhase common stock at $.17 per share.

On December 13, 2006, the Company entered into a Non-Exclusive Distribution Agreement with Netdialogue, a reseller and service integrator of IPTV middleware for telecommunications service providers located in Russia.

On January 4, 2007, the Company entered into a Cooperative Research and Development Agreement for Novel Reserve Cell Technologies and High Sensitivity Magnetometer Technology with the U.S. Army Armament Research Center located in Picatinny, New Jersey.

On January 23, 2007, the Company entered into a Memorandum of Understanding with Latens Systems Limited under which Latens grants to mPhase a license to use its conditional access software (encoding and encryption for IPTV delivery).

On February 3, 2007, the Company entered into Amendment No. 4 to a Development Agreement effective February 3, 2004, with Lucent Technologies, Inc. extending research and development through April 27, 2007, relating to micro-power source arrays fabricated using nano-textured superhydrophobic materials.

On February 17, 2007, the Company extended a Cooperative Research Agreement through December 31, 2007, originally entered into on July 15, 2005 with Rutgers, The State University of New Jersey governing cooperative research on a Lithium nanostructured reserve battery.

On February 22, 2007, the Company entered into a new Statement of Work with Espial Group, Inc for Integration of its EVO software to the Bitband Server for two set top boxes manufactured by Amino and Tilgin respectively in connection with mPhase's IPTV solution. The Company simultaneously entered into a Payment Agreement with Espial Group, Inc rescheduling certain payments owed by the Company for services performed in connection with software development of its IPTV solution.

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On March 28, 2007, the Company entered into a Reseller Agreement with Steeleye Technology, Inc. for software utilized for high use rollover redundancy for IPTV.

On April 17, 2007, the Company announced that it had formed AlwaysReady, Inc., a New Jersey Corporation, as a new wholly-owned subsidiary. The Company plans to transfer all of its nanotechnology assets and appropriate liabilities to such company as a first step in the separation of its nanotechnology product line from its IPTV product. The Company plans to staff AlwaysReady, Inc with a new management team experienced in the nanotechnology area in order to unlock and maximize overall shareholder value. On May 29, 2007, AlwaysReady, Inc announced the hiring of Source Capital Group, an investment banking firm specializing in the raising of private equity, to raise a minimum of $1.5 million in a Private Placement in which the Company would sell up to a 10% interest in AlwaysReady, Inc. to institutional and accredited investors. In addition the Company announced that it planned to eventually transform AlwaysReady, Inc. into a publicly traded company. mPhase plans to retain a 90% interest in Always Ready, Inc. and the shares of common stock of Always Ready, Inc. will be registered on appropriate filings with the SEC under the Securities Act of 1933, as amended, as well as the Securities Exchange Act of 1934, as amended, and listed for trading on the over the counter bulletin board.

On April 28, 2007, the Company extended its Development Agreement with Lucent Technologies relating to micro-power source arrays fabricated using nano-textured superhydrophobic materials originally entered into in February of 2004 with Amendment #5 through July 31, 2007.

On May 10, 2007, the Company entered into a Consulting Agreement with CT NanoBusiness Alliance to produce a report and assist the Company with respect to its strategy for development and marketing of its nano power cell product.

On May 11, 2007, the Company entered into an Escrow Agreement with Bitband Technologies, Inc. governing certain payments to be made by the Company to Bitband in connection with certain servers provided and services rendered for the Company's IPTV product testing.

On June 20, 2007, the Company announced that it is forming a new subsidiary, Granita Media, Inc. ("Granita"), a Delaware corporation, that will provide targeted advertising to users of the TV+ middleware solution. Through the use of specific viewer demographics such as age, gender and defined consumer preferences, the Company believes that a new form of broadcast television advertising could develop that is more powerful and focused than is currently being used by broadcasters. It is believed that targeted advertising software to be developed by Granita will enhance mPhase's middleware by offering a source of additional revenues for a telephone service provider deploying IPTV. mPhase planed to fund the new company initially through up to $500,000 of equity to be provided by employees and additional outside institutional financing which will involve the sale of up to 10% of the common stock of Granita with mPhase retaining 90% of the stock of Granita. The financing of the new company was unsuccessful and its employees were terminated or resigned between October and December of 2007.

On July 6, 2007, the Company announced that it has executed with Double U. Master Fund, L.P., a limited partnership organized under the laws of the British Virgin Islands, a Private Equity Credit Agreement for an aggregate of up to $6 million in financing through the sale, from time to time, of the common stock of the Company at a 14% discount to its market value (determined as set forth in detail in the Private Equity Credit Agreement). The terms of the Agreement provide that mPhase will have the option to "PUT" up to $300,000 of its common stock to the Partnership per month upon the effectiveness of a Form S-1 Registration Statement covering such shares of common stock. Under the terms of the Agreement, the Company is not obligated to draw any minimum amount of money under the Private Equity Credit Line

On July 18, 2007, the Company announced the award of a Phase I US Army Small Business Technology Transfer (STTR) Program Grant. This award is a Phase I six month research effort to develop a 30 plus year shelf life, low power, green battery (coin cell or similar) that will continuously power a static random access memory circuit for a computer device. SRAM is a common type of digital memory chip used in a wide variety of electronic systems for data storage. During the six month research period, the team will characterize the design, conduct capacity and stability measurements of a reserve style power cell based on Lithium chemistry. Long term stability and shelf life is achieved by initially separating the active materials of the power cell during storage, and controlling the activation of the cell until needed to provide power. This research program extends the design of the company's smart battery to support the use of non-water based electrolytes that are commonly used in lithium based batteries. Lithium batteries are favored for powering many different types of electronic devices due to their higher voltage and power requirements that can be supplied by more common alkaline batteries. The Phase I grant, valued at $100,000, will enable the Company to competitively compete for a Phase II award as an avenue used by U.S. government defense agencies to adopt advanced technology for commercialization and use. Rutgers University will support the Company and its newly formed subsidiary AlwaysReady, Inc. during the award period as a subcontractor under the award guidelines.

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On August 21, 2007, the Company announced the acquisition of a 10% stock ownership position in Sovereign Tracking Systems LLC, a company located in New Jersey with a patent covering active, real-time, tracking systems that use radio frequency identification tags to secure high-end personnel tracking and monitoring systems. The Company believes that, although such company faces severe financial challenges, such patent could potentially compliment and enhance the Company's smart battery application being developed through AlwaysReady, Inc. a wholly-owned subsidiary.

On September 5, 2007, the Company announced that it had made significant progress, pursuant to the requirements of the STTR grant, in developing a prototype of a lithium manganese dioxide prototype of its SmartBattery product.

On October 19, 2007, the Company announced that in connection with the settlement and dismissal of a civil law suit originally filed on November 16, 2005 by the Securities and Exchange Commission in the Federal District Court in the District of Connecticut, the SEC issued a Cease and Desist Order and certain remedial sanctions against two officers of mPhase Technologies, Inc. (the "Company"). The civil suit was filed against Packport.com, Inc. a Nevada corporation, Microphase Corporation, a Connecticut corporation, a company that provides administrative services to the Company and shares common management with the Company, and others. The two officers of the Company were Mr. Ronald A. Durando, President and Chief Executive Officer and Mr. Gustave T. Dotoli, the Chief Operating Officer. The Civil suit by the SEC named as respondents Mr. Durando, Mr. Dotoli and others in connection with their activities as officers and directors of Packetport.com. The cease and desist order from the SEC found that (1) All parties had violated Section 5 of the Securities Act of 1933, as making unregistered offers or sales of Packetport.com common stock. (2) Mr. Durando and Mr. Dotoli had violated Section 16(a) of the Securities Exchange Act of 1934, as amended, and Rule 16(a) thereunder by failing to timely disclose the acquisition of their holdings on Form 3's and (3) Mr. Durando had violated Section 13(d) of the Securities Exchange Act of 1934, as amended, for failing to disclose the acquisition of more than five percent of the stock of Packetport.com. Under the order Mr. Durando was required to disgorge $150,000 and Mr. Dotoli was required to disgorge $100,000. The Company was not named as a party to the civil suit. More information regarding the detailed terms of the settlement can be found in SEC release No 8858 dated October 18, 2007 promulgated under the Securities Act of 1933 and SEC Release No. 56672 dated October 18,2007 promulgated pursuant to the Securities Exchange Act of 1934. Mr. Durando and Mr. Dotoli have continued to serve as officers and directors of the Company. Mr Durando and Mr. Dotoli together with Microphase corporation and others, without admitting or denying the findings of the SEC, except as to jurisdiction and subject matter, have consented to the entry of the Order Instituting Cease and Desist Proceedings, Making findings and Imposing a Cease and Desist Order and Remedial Sanctions pursuant to Section 8A of the Securities Exchange Act of 1933 and Section 21C of the Securities Exchange Act of 1934.

On October 30, 2007, together with its subsidiary Granita Media, Inc, jointly announced that Comstar/Odessa, a major provider to telecommunications services in the Ukraine, had terminated the trial of the Company's TV+ solution.

On November 2, 2007, the Company announced the retirement of Mr. Necdet F. Egrul at the age of 84 from the Company's Board of Directors.

On February 20, 2008, the Company announced that a prototype of its smart reserve nanobattery was successfully deployed and activated by the resulting g force in a gun-fired test at the Aberdeen Proving Grounds in Maryland. The test was conducted by the U.S. Army Armament Research, Development, and Engineering Center (ARDEC) of Picatinny New Jersey. In this test, the AlwaysReady battery delivered power to the test load inside the standard military anti-tank round (M830A1 or HEAT-High Explosive Anti Tank) and demonstrated extreme resiliency, surviving the harsh environment as well as the high acceleration at a g-Force in excess of 45,000 (One "g" is equal to the pull of gravity at sea level). The gun-fired test was part of a prototype evaluation process that the U.S. Army is conducting as part of its CRADA (Cooperative Research and Development Agreement). The Company's Engineers collaborated with those at Picatinny involved in the development of precision guidance components to successfully package this reserve electrochemical storage system to operate during the gun-firing and flight environment of a very high "g" round. The developmental qualification work, prior to the live test firing, was performed using Picatinny's air gun test facilities by subjecting battery prototypes to various launch accelerations and various design iterations. The test validated the performance of the AlwaysReady battery with a current armament used by the Army. The Company has stated that its goal is to potentially incorporate this battery technology into smart, gun-fired munitions programs being developed by Picatinny.

On May 2, 2008 the Company announced that it had produced its first lithium-based battery that can be manually activated by providing power on command with a significantly longer shelf life prior to initial activation than those found in other batteries. The battery can be activated by command wirelessly from a remote location by a radio frequency signal giving it added mobility for sensor and similar applications.

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Since our inception in 1996, mPhase has been a development stage company focused on the development of intellectual property involving high technology innovative solutions and products with high-growth potential. The Company has served as an incubator for exploratory research and initial development for products that are best characterized as having a high risk/high reward profile since they involve exploratory research to achieve significant scientific breakthroughs from existing products that can have a substantial economic impact and benefit upon successful commercialization.

The Smart NanoBattery is an outgrowth of the science of nanotechnology that the Company began in February of 2004 with the entering into a Project Development Agreement with the Bell Labs Division of Lucent Technologies, Inc. The Company has historically outsourced its Research and Development of new products to larger companies or institutions with significant scientific resources and experience in exploratory research. mPhase Technologies along with Alcatel/Lucent/Bell Labs, jointly conducted research from February 2004 through April of 2007 that demonstrated control and manipulation of fluids on superhydrophobic surfaces to create power cells, by controlling wetting behavior of electrolyte on nano structured electrode surfaces. This scientific research conducted set the ground work for continued exploration in the development of intelligent nanotechnology power cells (nano-batteries), and formed a path to commercialization of the technology for a broad range of market opportunities. During 2005 and 2006, the battery team tested modifications and enhancements to the internal design of the battery to optimize its power and energy density characteristics, as well as engineering improvements that were essential in moving the battery from a zinc based chemistry to design using lithium based chemistry The Company established a strategic research working relationship with the Energy Storage Research Group (ESRG), a center of excellence in Rutgers University that has lab research facilities capable of handling lithium based battery development.

mPhase's current flagship product is its Smart NanoBattery that has a significant longer shelf life prior to initial activation than that of conventional batteries. The Smart NanoBattery has potentially significant applications for critical mission power sources that must be reliable and available upon command by the electronic device it is powering. Such applications involve, emergency flashlights and beacons, back -up power sources for computers and life support products, as well as significant military applications where critical mission backup power is essential for weapons control computers and electronic warfare equipment used in combat. Other potential military applications include power sources activated by g forces for guided munitions.

The Smart NanoBattery utilizes a proprietary technology developed over a period of 4 years. The battery design, prior to initial activation, has a membrane that separates the electrolyte and electrodes used to generate power. Conventional batteries do not provide for such separation and therefore their power begins to dissipate prior to the first time they are activated causing them to loose capacity. Conventional batteries have significant limits upon how long they can be stored prior to their first activation and in providing a reliable source of power required for critical applications requiring portable power supplies.

Other Nanotechnology Products

Competitive Business Conditions: Battery Segment

Our SmartBattery and power cell technology research and development was performed by the Bell Labs division of Alcatel/Lucent from February of 2004 through March o f 2007 at an aggregate cost of $3.8 million. The Company paid Bell Labs $300,000 covering the period from April 27, 2007 through July 30,2007 at which time it determined that in order to develop a lithium battery for higher density energy than zinc, it required facilities capable of handling lithium battery research that Bell Labs does not have. The Company has engaged a number of small foundries during fiscal year ended June 30, 2008 for commercialization of its SmarBattery at a cost of approximately $150,000.

mPhase and its subsidiary companies presently have a total of 10 full-time employees and consultants, two of whom are also employed by Microphase Corporation. See the description in the section entitled Certain Relationships and Related Transactions.

The Company has currently been forced to focus exclusively on commercialization of only one of its products thereby eliminating product diversification. The Company's lack of financial resources to simultaneously develop multiple products increases its overall risk profile as a development-stage company.

The market price of our common stock closed at $7.88 on July 26, 2000 and closed at $.041 on September 23, 2008. During such period the number of shares outstanding of the Company increased from approximately 30 million shares to 527 million shares. Such increase was the result of periodic private placements by the Company in order to finance company operations. Stocks in telecommunications equipment providers of DSL products have been very volatile during such period. Our common stock is a highly speculative investment and is suitable only for such investors with financial resources that enable them to sustain the loss of their entire investment in such stock. Because the price of our common stock is less than $5.00 per share and is not traded on the NASDAQ National or NASDAQ Small Cap exchanges, it is considered to be a "penny stock" limiting the type of customers that broker/dealers can sell to. Such customers consist only of "established customers" and "Accredited Investors" (within the meaning of Rule 501 of Regulation D of the Securities Act of 1933, as amended-generally individuals and entities of substantial net worth) thereby limiting the liquidity of our common stock.

We may not be able to obtain the amount of additional capital needed until the Company has established a significant and predictable sales and revenues from our technology. We have been successful in the past as a micro-cap development stage company in raising capital; however recent trends in the capital markets are likely to pose significant challenges for the Company. Factors affecting the availability of capital include:

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The price, volatility and trading volume of our common stock.

2.

Future financial results including sales and revenues generated from operations.

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The market's view of the business sector of nanotechnology and batteries.

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The perception in the capital markets of our ability to execute our business plan.

During the downturn in the telecommunications industry beginning in 2001, both Microphase Corporation, and Janifast Ltd. provided significant financial support to mPhase in the form of either cash infusions or conversions of related party debt. Such companies, which share common management with mPhase, are under no legal obligation to and may not be able to sustain such economic support of mPhase in the future should such support be necessary.

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The reports of the Company's outside auditors, Rosenberg, Rich, Baker, Berman & Company with respect to its latest audited 10K for the fiscal years ended June 30, 2008, June 30, 2007, June 30, 2006, stated that "there is substantial doubt of the Company's ability to continue as a going concern." Such opinion from our outside auditors makes it significantly more difficult and expensive for the Company to raise additional needed capital necessary to continue our operations.

As of June 30, 2008 outstanding convertible debt equal to $ 3,419,000 all of which has the right to convert into additional shares of our common stock at discounts ranging from 20%-25% of mPhase's then current stock price computed on a formula basis that may adversely affect the future price of our common stock. As of June 30, 2008 we have warrants and options convertible into approximately 192 million shares of our common stock at $.50 per share or less that, upon exercise may result in significant dilution to many of our current shareholders and may adversely affect the future price of our common stock. We may be forced to raise additional cash for operations by selling additional shares of our common stock to shareholders at depressed prices resulting in further dilution to our shareholders.

We have derived no material revenues from our SmartBattery from inception of development in February 2004 through June 30, 2008 and we have been forced to discontinue further product development and marketing of both our TV+ and Magnetometer products owing to limited financial resources.

Management and employment contracts with all of our officers have expired and no assurances can be given that such executives will remain with the Company or that the Company will be able to successfully enter into agreements with such key executives. All of our officers have made significant investments in the Company in the form of equity periodic purchases of common stock and bridge loans and been granted stock and stock options that are intended to represent a key component of their compensation. Such grants may not provide the intended incentives to such officers if our stock price declines or experiences significant volatility.

We believe that our intellectual property with respect to our SmartBattery and our proprietary rights with respect to the Company's permeable membrane design consisting of both micro and nano scale silicon features, that are coated with a monolayer chemistry used to repel liquids is critical to our future success. We have four patents pending with respect to our SmartBattery product in order to protect our product, however no patents have yet been granted. Our pending patent applications may never be granted for various reasons, including the existence of conflicting patents or defects in our applications. Even if a U.S. patent is ultimately granted there are significant risks regarding enforcement of patents in international markets. There are many patents being filed as the science of nanotechnology develops and the Company has limited financial resources compared to large, well established companies, in order to bring patent litigation based upon claims of patent infringement.

RISKS RELATED TO OUR TARGETED MAKETS

Commercialization of new technology products often have very long lead time since it is not possible to predict when major companies will license such technology for sale to their customers. The Science of Nanotechnology and Microfluidics used to develop our SmartBattery is in its very early stages and acceptance and demand for such products can often be a long evolutionary process. In the case of the Company's IPTV solution the roll-out of delivery of broadcast television by telephone service providers using internet protocol has taken 10 years to develop and is still moving slowly which has resulted in the Company currently delaying any further development of such product to conserve financial resources.

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Micro fluid dynamics and the manipulation of materials of nano size and dimensions is a very new science and the creation of new products is dependent upon new and different properties of such materials created that will result in many uncertain applications and rapid change. The evolution of nanotechnology as a new science adds greater uncertainty to new applications and new and improved product introductions is unpredictable.

We may not be able to create new products from our intellectual property using microfluidics that will be acceptable in water purification, oil separation from water and other environment markets.

The market for "green" products and solutions is characterized by: Changing regulatory standards; New and improved product introductions; Changing customer demands; and

Large companies such as Exxon with great resources that are currently focusing significant monies for new solutions.

Our future success will depend upon our ability to achieve compelling technology innovations that are economic and practical to produce in large quantities .Success in new technology, products and services is a complex and uncertain process requiring high levels of innovation, highly-skilled engineering and development personnel, and the accurate anticipation of technological and market trends. We may not be able to identify, develop, market or support new or enhanced technology, products, or services on a timely basis, if at all owing to our size and limited financial resources.

We are seeking commercial partners with established lines of business and greater financial resources than our own. Such partners may not place the priority that we do on joint projects because the success or failure of such projects is not as material to other existing well developed lines of business.

The compelling need for critical mission batteries and other applications of our nanotechnology will depend upon both military and commercial needs going forward and the demand for our products as components. Thus are SmartBattery and other applications of our technology success will depend upon the continuing need for the end user products over which will depend upon market demand.

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Our corporate headquarters is located at 587 Connecticut Avenue, Norwalk, CT 06854-1711. The Company leases this office space from Microphase Corporation under a facilities agreement with Microphase that provides that mPhase lease office space, lab facilities and administrative staff on a month-to-month basis for $5,000 month. The Company also maintains an office in Little Falls, New Jersey with monthly rent of $12,656 per month.

On October 19, 2007, in connection with the settlement and dismissal of a civil law suit originally filed on November 16, 2005 by the Securities and Exchange Commission in the Federal District Court in the District of Connecticut, the SEC issued a Cease and Desist Order and certain remedial sanctions against two officers of mPhase Technologies, Inc. (the "Company"). The civil suit was filed against Packport.com, Inc. a Nevada corporation, Microphase Corporation, a Connecticut corporation, a company that provides administrative services to the Company and shares common management with the Company, and others. The two officers of the Company were Mr. Ronald A. Durando, President and Chief Executive Officer and Mr. Gustave T. Dotoli, the Chief Operating Officer. The Civil suit by the SEC named as respondents Mr. Durando, Mr. Dotoli and others in connection with their activities as officers and directors of Packetport.com. The cease and desist order from the SEC found that (1) All parties had violated Section 5 of the Securities Act of 1933, as amended, by making unregistered offers or sales of common stock of Packetport.com.(2) Mr. Durando and Mr. Dotoli had violated Section 16(a) of the Securities Exchange Act of 1934, as amended, and Rule 16(a) there under by failing to timely disclose the acquisition of their holdings on Form 3's and (3) Mr. Durando had violated Section 13(d) of the Securities Exchange Act of 1934, as amended, for failing to disclose the acquisition of more than five percent of the stock of Packetport.com. Under the order Mr. Durando was required to disgorge $150,000 and Mr. Dotoli was required to disgorge $100,000. The Company was not named as a party to the civil suit. More information regarding the detailed terms of the settlement can be found in SEC release No 8858 dated October 18, 2007 promulgated under the Securities Act of 1933 and SEC Release No. 56672 dated October 18, 2007 promulgated pursuant to the Securities Exchange Act of 1934.

Mr. Durando and Mr. Dotoli have continued to serve as officers and directors of the Company. Mr. Durando and Mr. Dotoli together with Microphase corporation and others, without admitting or denying the findings of the SEC, except as to jurisdiction and subject matter, have consented to the entry of the Order Instituting Cease and Desist Proceedings, Making findings and Imposing a Cease and Desist Order and Remedial Sanctions pursuant to Section 8A of the Securities Exchange Act of 1933 and Section 21C of the Securities Exchange Act of 1934. From time to time mPhase may be involved in various legal proceedings and other matters arising in the normal course of business.

None

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PART II

The primary market for mPhase's common stock is the NASDAQ OTC Bulletin Board, where it trades under the symbol "XDSL." The Company became publicly traded through a merger with Lightpaths TP Technologies, formerly known as Tecma Laboratories, Inc. pursuant to an agreement dated February 17, 1997. The following table sets forth the high and low closing prices for the shares for the periods indicated as provided by the NASDAQ's OTCBB System. The quotations shown reflect inter-dealer prices, without retail mark-up, markdown, or commission and may not represent actual transactions. These figures have been adjusted to reflect a 1 for 10 reverse stock split on March 1, 1997.