Abstract: Backlight modules are provided. A backlight module includes a reflector, a light source disposed in the reflector, a substrate connected to the reflector, and a fixing mechanism. The reflector includes a first reflecting surface having a first opening and a second reflecting surface having a second opening. The fixing mechanism, connecting the first and second openings, is coated with a reflective material, to reflect light from the light source.

Abstract: A backlight module includes a reflective plate and a light source. The reflective plate comprises a plurality of reflective regions, and the light source is disposed at a side of the reflective plate. Diffusivity of the reflective regions away from the light source is different from diffusivity of the reflective regions near the light source.

Abstract: An apparatus for enhancing an LED backlight, which provides an enhanced illumination pattern across the entire display. The apparatus includes additional LED light bars positioned in between conventionally-positioned LED light bars.

Abstract: A method of forming a device (and the device so formed) comprising the following steps. A structure having a gate structure formed thereover is provided. Respective low doped drains are formed within the structure at least adjacent to the gate structure. A pocket implant is formed within the structure. The structure adjacent the gate structure is etched to form respective trenches having exposed side walls. Respective first liner structures are formed at least over the exposed side walls of trenches. Respective second liner structures are formed over the first liner structures. Source/drain implants are formed adjacent to, and outboard of, second liner structures to complete formation of device.

Abstract: A method of forming a device (and the device so formed) comprising the following steps. A structure having a gate structure formed thereover is provided. Respective low doped drains are formed within the structure at least adjacent to the gate structure. A pocket implant is formed within the structure. The structure adjacent the gate structure is etched to form respective trenches having exposed side walls. Respective first liner structures are formed at least over the exposed side walls of trenches. Respective second liner structures are formed over the first liner structures. Source/drain implants are formed adjacent to, and outboard of, second liner structures to complete formation of device.

Abstract: A backlight includes a mounting frame, a light-guide plate, a plurality of lamps arranged along the side edges of the light-guide plate, and one or more optical film covering an area of the light-guide plate. The lamps are arranged so that each side edge portion of the light-guide plate approximately faces a lighting area of one lamp. In further configuration of the backlight, the lamps are arranged so that at least two or more lamps overlap each other at one side of the light-guide plate.

Abstract: A method of forming a device (and the device so formed) comprising the following steps. A structure having a gate structure formed thereover is provided. Respective low doped drains are formed within the structure at least adjacent to the gate structure. A pocket implant is formed within the structure. The structure adjacent the gate structure is etched to form respective trenches having exposed side walls. Respective first liner structures are formed at least over the exposed side walls of trenches. Respective second liner structures are formed over the first liner structures. Source/drain implants are formed adjacent to, and outboard of, second liner structures to complete formation of device.

Abstract: The present invention provides a system and method for selectively removing one or more organic and inorganic and also preferably one or more inorganic contaminants from plating baths. More particularly, the invented method relates to the use of a source of energy in combination with chemical oxidants, alone or in conjunction with a catalyst to oxidize organic contaminants in the plating bath to a level such that the electroplating bath can be recovered and reused after appropriate chemical adjustment. The oxidative treatment method may be a continuous process or a batch process that is performed in a single pass. Residual organics, if desired and chloride ions in the bath are removed from the solution by a chemisorption or physisorption treatment. Inorganic contaminants are removed from the electroplating bath by selective ion exchange resins or electrodialysis, while particulate and suspended colloidal particles are removed by filtration before the treated plating bath is recycled.

Abstract: A direct backlight module for an LCD panel includes a base, a supporter plate and a plurality of films. The base further has a plurality of lamps parallel arranged thereinside. The supporter plate is mounted over the base and further has a frame and a plurality of wires. The frame is a square structure having a central opening, and each of the wires is constructed at the frame by crossing the central opening. The films are mounted layer by layer over the supporter plate and born by both the frame and the wires. The module can engage with an LCD at a side exposing the film and, under such an engagement, lights of the lamps can pass through the central opening of the supporter plate, penetrate the films, and finally reach the LCD.

Abstract: PEG-chitosan conjugates comprising chitosan and polyethylene glycol moieties or derivatives thereof which are bonded together and their use in medicine is described. In one embodiment, the conjugate comprises a chitosan moiety or a derivative thereof and a polyethylene glycol moiety or a derivative thereof which are bonded together via the amino function on the chitosan by the use of an activated chitosan species. In another embodiment, the conjugate comprises a chitosan moiety or a derivative thereof and a polyethylene glycol moiety or a derivative thereof which are bonded together, the chitosan portion of the conjugate having a molecular weight in the range of from 10 kilodaltons to 1000 kilodaltons.

Abstract: PEG-chitosan conjugates comprising chitosan and polyethylene glycol moieties or derivatives thereof which are bonded together and their use in medicine is described. In one embodiment, the conjugate comprises a chitosan moiety or a derivative thereof and a polyethylene glycol moiety or a derivative thereof which are bonded together via the amino function on the chitosan by the use of an activated chitosan species. In another embodiment, the conjugate comprises a chitosan moiety or a derivative thereof and a polyethylene glycol moiety or a derivative thereof which are bonded together, the chitosan portion of the conjugate having a molecular weight in the range of from 10 kilodaltons to 1000 kilodaltons.

Abstract: PEG-chitosan conjugates comprising chitosan and polyethylene glycol moieties or derivatives thereof which are bonded together and their use in medicine is described. In one embodiment, the conjugate comprises a chitosan moiety or a derivative thereof and a polyethylene glycol moiety or a derivative thereof which are bonded together via the amino function on the chitosan by the use of an activated chitosan species. In another embodiment, the conjugate comprises a chitosan moiety or a derivative thereof and a polyethylene glycol moiety or a derivative thereof which are bonded together, the chitosan portion of the conjugate having a molecular weight in the range of from 10 kilodaltons to 1000 kilodaltons.

Abstract: A linear piezoelectric motor which includes a piezoelectric actuator; an actuator container which contains the piezoelectric actuator; an actuator slope which is supported by and slidably connected to an actuator slope support, the actuator slope is able to correspond with a surface portion of the actuator container; an output bar which shares a common axis with the actuator and the actuator container and comes in contact with at least one of the actuator and the actuator container on one end of the output bar and an axial load is applied on an opposite end of the output bar; and at least one output slope which is slidably connected to at least one output support.

Abstract: The present invention provides a system and method for selectively removing one or more organic and also preferably one or more inorganic contaminants from plating baths. More particularly, the invented method relates to the use of a source of energy in combination with chemical oxidants, alone or in conjunction with a catalyst to oxidize organic contaminants in the plating bath to a level such that the electroplating bath can be recovered and reused after appropriate chemical adjustment. The oxidative treatment method may be a continuous process or a batch process that is performed in a single pass and the endpoint of the oxidative process detected by a sensor. Residual organics, if desired, and chloride ions in the bath are removed from the solution by a chemisorption or physisorption treatment.

Abstract: A process is described for preparing microspheres, films and coatings from protein or modified protein in which the protein product is stabilized by carrying out the preparation in the presence of an aqueous solution of at least one &agr;-hydroxy acid. The microspheres, films and coatings so produced have improved stability in aqueous solution.

Abstract: A carrier frame having an in-frame elastic constraint structure includes at least one elastic constraint structure, each of which is disposed in a predetermined position in an embracing space of the carrier frame. When a put-in module is put into the embracing space, the elastic constraint structure can be compressed and thereby deformed to produce a corresponding elastic force acting against the put-in module so as to restrict the motion of the put-in module within the embracing space. By providing the elastic constraint structure to the carrier frame, the put-in module can then be secured stably inside the embracing space.

Abstract: A linear piezoelectric motor which includes a piezoelectric actuator; an actuator container which contains the piezoelectric actuator; an actuator slope which is supported by and slidably connected to an actuator slope support, the actuator slope is able to correspond with a surface portion of the actuator container; an output bar which shares a common axis with the actuator and the actuator container and comes in contact with at least one of the actuator and the actuator container on one end of the output bar and an axial load is applied on an opposite end of the output bar; and at least one output slope which is slidably connected to at least one output support.

Abstract: A process is described for preparing microspheres, films and coatings from protein or modified protein in which the protein product is stabilized by carrying out the preparation in the presence of an aqueous solution of at least one alpha-hydroxy acid. Preferred alpha-hydroxy acids are glycolic acid, lactic acid, alpha-hydroxybutyric acid or a mixture of two or more thereof. The microspheres, films and coatings so produced have improved stability in aqueous solution.

Abstract: The present invention provides a system and method for selectively removing one or more organic and inorganic and also preferably one or more inorganic contaminants from plating baths. More particularly, the invented method relates to the use of a source of energy in combination with chemical oxidants, alone or in conjunction with a catalyst to oxidize organic contaminants in the plating bath to a level such that the electroplating bath can be recovered and reused after appropriate chemical adjustment. The oxidative treatment method may be a continuous process or a batch process that is performed in a single pass. Residual organics, if desired and chloride ions in the bath are removed from the solution by a chemisorption or physisorption treatment. Inorganic contaminants are removed from the electroplating bath by selective ion exchange resins or electrodialysis, while particulate and suspended colloidal particles are removed by filtration before the treated plating bath is recycled.

Abstract: The present invention provides a system and method for selectively removing organic and inorganic contaminants from plating baths. More particularly, the invented method relates to the use of a source of energy in combination with chemical oxidants, alone or in conjunction with a catalyst to oxidize organic contaminants in the plating bath to a level such that the electroplating bath can be recovered and reused after appropriate chemical adjustment. The oxidative treatment method may be a continuous process or a batch process that is performed in a single pass and the endpoint of the oxidative process detected by a sensor. Residual organics, and chloride ions in the bath are removed from the solution by a chemisorption or physisorption treatment. Inorganic contaminants are removed from the electroplating bath by selective ion exchange resins or electrodialysis, while particulate and suspended colloidal particles are removed by filtration before the treated plating bath is recycled.