Patent application number | Description | Published |
20110088592 | REACTIVE SILICON DIOXIDE COMPOUND AND OPTICAL PROTECTIVE FILM CONTAINING THE SAME - A reactive silicon dioxide compound, wherein the formula of the reactive silicon dioxide compound is shown as Formula (I): | 04-21-2011 |
20110111333 | HEAT-RESISTANT FLEXIBLE COLOR FILTER - The invention provides a heat-resistant flexible color filter, including: a flexible transparent substrate, wherein the forming material thereof includes nano silica and polyimide, and the nano silica is present in an amount of about 20-70 wt %, based on 100 wt % of the forming material; and a heat-stable color photoresist material coated on the flexible transparent substrate, wherein the heat stable color photoresist material includes: a base soluble resin system about 30-90 wt %; a photosensitive system about 5-60 wt %; and a pigment coated with an inorganic alkoxide about 10-50 wt %. | 05-12-2011 |
20120141937 | Photosensitive Composition and Photoresist - A photosensitive composition and a photoresist are provided. The photoresist is formed by compounding a photosensitive composition. The photosensitive composition comprises a binder agent, a photomonomer and a photoinitiator. The binder agent is formed by polymerizing a binder composition. The binder composition comprises a lactic oligomer. The photomonomer has an amount of about 25-95 parts by weight relative to 100 parts by weight of a solid content of the binder agent. The photo initiator has an amount of about 0.5-15 parts by weight relative to 100 parts by weight of the solid content of the binder agent. | 06-07-2012 |
20130137042 | PHOTOSENSITIVE COMPOSITION AND PHOTORESIST - A photosensitive composition and a photoresist are provided. The photoresist is formed by compounding a photosensitive composition. The photosensitive composition comprises a binder agent, a photomonomer and a photoinitiator. The binder agent has a chemical structure comprising following repeating unit: | 05-30-2013 |
20130155486 | INK COMPOSITION USED IN ELECTROWETTING DISPLAY DEVICE AND ELECTROWETTING DISPLAY DEVICE EMPLOYING THE SAME - Disclosed is an ink composition used in an electrowetting display device and an electrowetting display device employing the same. The ink composition used in the electrowetting display device includes a non-polar solvent and a modified hydrophobic pigment, wherein the modified hydrophobic pigment has a structure represented by Formula (I), of | 06-20-2013 |
20140030502 | MASTERBATCH, METHOD FOR FABRICATING THE SAME, AND A FILM FABRICATED FROM THE MASTERBATCH - The disclosure provides a masterbatch, a method for fabricating the same and a film formed from the masterbatch. The masterbatch includes a product prepared from a composition via polymerization and granulation. The composition includes: terephthalic acid; and a silicon dioxide dispersion, wherein the silicon dioxide dispersion includes surface-modified silicon dioxide particles disposed within ethylene glycol, and the surface-modified silicon dioxide particle has first functional groups and second functional groups bonded on the surface of the silicon dioxide particles, wherein the first functional groups have a structure represented by | 01-30-2014 |
Patent application number | Description | Published |
20080231519 | MODULARIZED PLANAR ANTENNA STRUCTURE - A modularized planar antenna structure includes an antenna unit, a connection unit, a circuit board and a cover. The modularized planar antenna structure connects the antenna unit and circuit board. The antenna unit includes a signal feeder electrically connected the circuit board at end thereof such that the antenna unit is vertical to the circuit board. The cover is assembled to the circuit to protect the circuit board from electromagnetic interference or strike of external article. When the antenna structure is assembled to a main circuit board of an electronic device, the circuit board can be directly assembled to the main circuit board of an electronic device and the circular-polarized antenna unit points toward zenith direction to receive satellite signal. | 09-25-2008 |
20080238803 | EXTREMELY MINIATURIZED FM FREQUENCY BAND ANTENNA - An extremely miniaturized FM frequency band antenna built in a mobile device includes a substrate and an antenna unit. The substrate is provided with a plate having a grounding metallic surface and a first clearance surface. A second clearance surface provided on the same side of the grounding metallic surface has a metallic micro strip line. One end of the metallic micro strip line extends to a bottom end of the second clearance surface and has a first contact. The other end of the micro strip line extends onto the first clearance surface and has a second contact. Further, a third contact is provided on the first clearance surface at a position corresponding to that of the second contact. Finally, the antenna unit is electrically connected on the second and third contacts to form a FM antenna for receiving FM signals. | 10-02-2008 |
20080278392 | EXTREMELY MINIATURIZED DIGITAL ANTENNA HAVING SWITCHABLE MULTIPLE BANDWIDTHS - An extremely miniaturized digital TV signal reception antenna built in a mobile device includes a substrate, an antenna unit and a switch unit. The substrate is provided with a plate having a grounding metallic surface and a first clearance surface. A second clearance surface is provided on the same side of the grounding metallic surface with a metallic microstrip line for electrically connecting to an output end of the switch unit. Input ends of the switch unit are electrically connected with a plurality of leads of the first clearance surface. The other ends of the plurality of leads are electrically connected with the antenna unit. Finally, when a tuner of a portable digital television switches the channels, signals of the switched channel are simultaneously output to the switch unit. According to the frequency of that channel, the switch unit automatically switches to a suitable range of bandwidth for receiving the digital TV signals, thereby performing the reception of the digital TV signals. | 11-13-2008 |