Abstract: A convertible clutch purse is disclosed that converts to a billowy sash and vice versa. The purse is formed of an elongated composite fabric structure having an inner sheet and an outer billowed sheet attached together to form, in one embodiment, a generally oval shaped body. A selectively closable pocket is sandwiched between the inner and outer sheets, wherein the pocket is accessible along one edge joining the inner and outer sheets, and wherein the sash may be folded into the pocket to convert the sash into the clutch purse. An alternative embodiment converts from the purse to a stole or scarf having free ends.

Abstract: The present invention provides a crosslinked amine and amide polymers effective for binding and removing bile salts from the gastrointestinal tract. These bile acid binding polymers or pharmaceutical compositions thereof can be administered to subjects to treat various conditions, including hypercholesteremia, diabetes, pruritis, irritable bowel syndrome-diarrhea (IBS-D), bile acid malabsorption, and the like.

Abstract: A method of manufacturing a transparent encapsulating sheet for a light-emissive device, the method comprising the steps: forming a plurality of cavities in one side of a transparent sheet of material for receiving light-emissive structures therein, said forming step producing a frosted surface comprising micro cracks in the cavities; coating said frosted surface with a low viscosity material whereby the micro cracks in the frosted surface are filled with the low viscosity material in order to form the transparent encapsulating sheet.

Abstract: An organic electroluminescent device comprising: a substrate; a first electrode disposed over the substrate for injecting charge of a first polarity; a second electrode disposed over the first electrode for injecting charge of a second polarity opposite to said first polarity; an organic light emitting layer disposed between the first and the second electrode; and an encapsulant disposed over the second electrode, wherein the second electrode and the encapsulant are transparent to light emitted by the light emitting layer, wherein a cavity is provided between the encapsulant and the second electrode, and wherein an anti-reflective coating is provided on at least one side of the encapsulant for reducing reflection of light emitted by the light emitting layer so as to improve out-coupling of light from the device, said anti-reflective coating being transparent to light emitted by the light emitting layer.

Abstract: An organic electroluminescent device comprising: a substrate; a first electrode disposed over the substrate for injecting charge of a first polarity; a second electrode disposed over the first electrode for injecting charge of a second polarity opposite to said first polarity; an organic light emitting layer disposed between the first and the second electrode; an encapsulant can disposed over, and spaced apart from, the second electrode, defining a cavity therebetween; wherein a plurality of spacers are disposed between the encapsulant can and the second electrode forming multiple sealed cavities between the second electrode and the encapsulant can.

Abstract: Anion-binding polymers are described. The anion-binding polymers in some cases are low swelling anion-binding polymers. In some cases, the anion-binding polymers have a pore volume distribution such that a fraction of the polymer is not available for non-interacting solutes above a certain percentage of the MW of the target ion for the polymer. In some cases, the anion-binding polymers are characterized by low ion-binding interference, where the interference is measured in, for example, a gastrointestinal simulant, relative to non-interfering buffer. Pharmaceutical composition, methods of use, and kits are also described.

Abstract: Anion-binding polymers are described. The anion-binding polymers in some cases are low swelling anion-binding polymers. In some cases, the anion-binding polymers have a pore volume distribution such that a fraction of the polymer is not available for non-interacting solutes above a certain percentage of the MW of the target ion for the polymer. In some cases, the anion-binding polymers are characterized by low ion-binding interference, where the interference is measured in, for example, a gastrointestinal simulant, relative to non-interfering buffer. Pharmaceutical composition, methods of use, and kits are also described.

Abstract: Anion-binding polymers are described. The anion-binding polymers in some cases are low swelling anion-binding polymers. In some cases, the anion-binding polymers have a pore volume distribution such that a fraction of the polymer is not available for non-interacting solutes above a certain percentage of the MW of the target ion for the polymer. In some cases, the anion-binding polymers are characterized by low ion-binding interference, where the interference is measured in, for example, a gastrointestinal simulant, relative to non-interfering buffer. Pharmaceutical composition, methods of use, and kits are also described.

Abstract: Anion-binding polymers are described. The anion-binding polymers in some cases are low swelling anion-binding polymers. In some cases, the anion-binding polymers have a pore volume distribution such that a fraction of the polymer is not available for non-interacting solutes above a certain percentage of the MW of the target ion for the polymer. In some cases, the anion-binding polymers are characterized by low ion-binding interference, where the interference is measured in, for example, a gastrointestinal simulant, relative to non-interfering buffer. Pharmaceutical composition, methods of use, and kits are also described.

Abstract: An electrical power metering system. The electrical power metering system may include a plurality of gated power receptacles, each of the gated power receptacles being configured to selectively provide electrical power in response to receiving a wireless signal. The system may further include a service application configured to receive a request to provide electrical power for one of the plurality of gated power receptacles, the request including an identifier that designates the one of the plurality of gated power receptacles at which electrical power is requested. The system may further include a local host application executable on a computing device, the local host application being configured to send the wireless signal via a coordinator module to the one of the plurality of gated power receptacles to provide electrical power in response to receiving a communication from the service application that includes the identifier.

Abstract: A system and method for tooth whitening are disclosed wherein at least one peroxide-containing gel and at least one transition metal compound- containing gel, particularly at least one lower atomic number transition metal compound, more particularly at least a ferrous compound including gluconate, sulfate, nitrate, acetate or mixtures thereof, are applied to a patient's mouth. Gelling agent is also included. The activation of the peroxide whitens the patient's teeth. The system may be used with or without the application of light. The system further provides an additional gel including a sensitivity reduction compound including potassium nitrate, sodium nitrate or mixtures thereof for possible sensitivity treatment if needed.

Abstract: Provided is a method and system for correcting key input when a key button which a user intends to input and its neighbor buttons are simultaneously pressed on a small-size keyboard. For information input, simultaneous activation by the operator of a combination of keys of a keyboard is performed, wherein each of possibility for simultaneous activation of the combination of keys is associated with an individual code generated at simultaneous activation of this combination of keys. The generated code is loaded into the adaptive code conversion unit converting this individual input code into the most probable output code, which is visualized on a display after processing by the device processor for selection of the required symbol and confirmation of the selection.

Abstract: A computer-based funds transfer service provides functionality for users to send and receive payments via a web-based user interface. In one embodiment, the web-based user interface provides functionality for a first user of the service to generate and submit a payment request for sending money to, or collecting money from, a second user, who may but need not be registered with the service. The first user may specify the second user by supplying an email address of the second user, which may be used by the service to notify the second user of the payment request. The email message sent to the second user may include a URL that can be accessed by the second user to register with the service (if not already registered) and complete the transaction.

Abstract: A fixed income securities trading framework for facilitating the negotiation and exchange of fixed income securities over an open network between a plurality of participants wherein, the trading framework comprises: a bond network having a search engine, a rule datastore, a pricing engine, a transaction engine and a fixed income securities database comprised a plurality of bids and offers; a pair of participants where at least one participant is a liquidity provider; and a datastore; wherein at least one of the search engine and the transaction engine correlates criteria defined by one of the participants to the bond database as requested by the participant and where at least one of the search engine and the transaction engine interact with the rules datastore on each of the participant request within the bond network; and wherein the bond network enables the participants to transact against one of a bid or offer posted in the fixed income securities database so as to facilitiate the exchange of fixed income

Abstract: Amorphous silicon thin films can be deposited onto large area glass substrates at high deposition rates by chemical vapor deposition using pressure of at least 0.8 Torr and temperatures of about 270-350° C. and fairly high gas flow rates of silane in a hydrogen carrier gas. The spacing between the inlet gas manifold and the substrate in the CVD chamber is maintained so as to maximize the deposition rate. Improved transistor characteristics are observed when the substrate is either exposed to a hydrogen plasma for a few seconds prior to high rate deposition of the amorphous silicon, or when a first layer of amorphous silicon is deposited using a slow deposition rate process prior to deposition of the high deposition rate amorphous silicon.

Abstract: Multilayer deposition of thin films onto glass substrates to form thin film transistors can be carried out in the same chamber under similar reaction conditions at high deposition rates. We have found that sequential thin layers of silicon nitride and amorphous silicon can be deposited in the same chamber by chemical vapor deposition using pressure of at least 0.5 Torr and substrate temperatures of about 250-370° C. Subsequently deposited different thin films can also be deposited in separate chemical vapor deposition chambers which are part of a single multichamber vacuum system.

Abstract: The apparatus detects error in transceivers of individual modules connected to a communication network, the network being a two-line network. The apparatus comprises a reference voltage source to output a first and second reference voltage value in response to a control signal. A controller controls a predefined sequence of steps in performing a test to detect the errors of the transceivers. A first and second comparator compares a voltage of the corresponding first and second line to a select first and second reference voltage as commanded by the sequence of steps of the test sequence.

Abstract: High quality silicon nitride thin films can be deposited by plasma CVD onto large area glass substrates at high deposition rates by adjusting the spacing between the gas inlet manifold and substrate, maintaining the temperature at about 300.degree.-350.degree. C., and a pressure of at least 0.8 Torr. Subsequently deposited different thin films can also be deposited in separate chemical vapor deposition chambers which are part of a single vacuum system.