Patent application number | Description | Published |
20090091241 | FULL-COLOR ORGANIC LIGHT-EMITTING DIODE DISPLAY PANEL AND FABRICATING METHOD THEREOF - A full-color OLED display panel comprises a full-color organic light-emitting device and a colored filter device stacked on the light-exit surface of the full-color organic light-emitting device. The full-color organic light-emitting device comprises a first electrode, a plurality of second electrodes, a first light-emitting layer sandwiched between the first electrode and a portion of the second electrodes, and a second light-emitting layer sandwiched between the first electrode and portions of the second electrodes and the first light-emitting layer. The colored filter device comprises a substrate, and a plurality of first color filter portions, a plurality of second color filter portions and a plurality of third color filter portions disposed on the surface of the substrate. The first color filter portions allow a first color light emitted from the first light-emitting layer to pass through, and the second color filter portions and the third color filter portions each allow rays with different wavelengths in a second color light emitted from the second light-emitting layer to pass through. | 04-09-2009 |
20130183823 | BUMPING PROCESS - A bumping process includes providing a silicon substrate, forming a titanium-containing metal layer on the silicon substrate, wherein the titanium-containing metal layer comprises a plurality of first areas and a plurality of second areas, forming a photoresist layer on the titanium-containing metal layer, patterning the photoresist layer to form a plurality of opening slots corresponded to the first areas of the titanium-containing metal layer, forming a plurality of copper bumps at the opening slots, proceeding a heat procedure, forming a plurality of bump isolation layers on the copper bumps, forming a plurality of connective layers on the bump isolation layers, removing the photoresist layer, removing the second areas and enabling each the first areas to form an under bump metallurgy layer. | 07-18-2013 |
20130214407 | SEMICONDUCTOR PACKAGING METHOD AND STRUCTURE THEREOF - A semiconductor packaging method includes providing a substrate having a plurality of pads, each of the pads comprises a first coupling surface having a plurality of first conductive contact areas and a plurality of first non-conductive contact areas; forming a conductible gel with anti-dissociation function on the substrate, said conductible gel includes a plurality of conductive particles and a plurality of anti-dissociation substances; mounting a chip on the substrate, said chip comprises a plurality of copper-containing bumps, each of the copper-containing bumps comprises a ring surface and a second coupling surface having a plurality of second conductive contact areas and a plurality of second non-conductive contact areas, wherein the conductive particles are electrically connected with the first conductive contact areas and the second conductive contact areas, said anti-dissociation substances are in contact with the second non-conductive contact area, and the ring surfaces are covered with the anti-dissociation substances. | 08-22-2013 |
20130214419 | SEMICONDUCTOR PACKAGING METHOD AND STRUCTURE THEREOF - A semiconductor packaging method includes providing a substrate having a plurality of connection pads; mounting a chip on the substrate, wherein the chip comprises a plurality of copper-containing bumps directly coupled to the connection pads, and each of the copper-containing bumps comprises a ring surface; forming an anti-dissociation gel between the substrate and the chip, wherein the anti-dissociation gel comprises a plurality of anti-dissociation substances, and the ring surfaces of the copper-containing bumps are covered by the anti-dissociation substances. | 08-22-2013 |
20130249081 | METHOD FOR MANUFACTURING FINE-PITCH BUMPS AND STRUCTURE THEREOF - A method for manufacturing fine-pitch bumps comprises providing a silicon substrate; forming a titanium-containing metal layer having a plurality of first zones and a plurality of second zones on the silicon substrate; forming a photoresist layer on the titanium-containing metal layer; patterning the photoresist layer; forming a plurality of copper bumps having a plurality of first top surfaces and a plurality of first ring surfaces; heating the photoresist layer to form a plurality of body portions and removable portions; etching the photoresist layer; forming a plurality of bump protection layers on the titanium-containing metal layer, the first top surface and the first ring surface, each of the bump protection layers comprises a bump coverage portion; plating a plurality of gold layers at the bump coverage portion; eventually, removing the second zones to enable each of the first zones to form an under bump metallurgy layer. | 09-26-2013 |
20130249089 | METHOD FOR MANUFACTURING FINE-PITCH BUMPS AND STRUCTURE THEREOF - A method for manufacturing fine-pitch bumps comprises the steps of providing a silicon substrate; forming a titanium-containing metal layer on the silicon substrate, wherein the titanium-containing metal layer comprises a plurality of first zones and a plurality of second zones; forming a photoresist layer on the titanium-containing metal layer; patterning the photoresist layer to form a plurality of opening slots; forming a plurality of copper bumps at the opening slots, wherein each of the copper bumps comprises a first top surface and a ring surface; heating the photoresist layer to form a plurality of body portions and a plurality of removable portions; etching the photoresist layer; and removing the second zones to enable each of the first zones to form an under bump metallurgy layer having a bearing portion and an extending portion. | 09-26-2013 |
20130252374 | SEMICONDUCTOR PACKAGING METHOD AND STRUCTURE THEREOF - A semiconductor packaging method includes providing a substrate having a plurality of pads, each of the pads comprises a first coupling surface having a plurality of first conductive contact areas and a plurality of first non-conductive contact areas; forming a conductible gel with anti-dissociation function on the substrate, said conductible gel includes a plurality of conductive particles and a plurality of anti-dissociation substances; mounting a chip on the substrate, said chip comprises a plurality of copper-containing bumps, each of the copper-containing bumps comprises a ring surface and a second coupling surface having a plurality of second conductive contact areas and a plurality of second non-conductive contact areas, wherein the conductive particles are electrically connected with the first conductive contact areas and the second conductive contact areas, said anti-dissociation substances are in contact with the second non-conductive contact area, and the ring surfaces are covered with the anti-dissociation substances. | 09-26-2013 |
20130256882 | METHOD FOR MANUFACTURING FINE-PITCH BUMPS AND STRUCTURE THEREOF - A method for manufacturing fine-pitch bumps comprises providing a silicon substrate; forming a titanium-containing metal layer having a plurality of first zones and a plurality of second zones on the silicon substrate; forming a photoresist layer on the titanium-containing metal layer; patterning the photoresist layer; forming a plurality of copper bumps having a plurality of first top surfaces and a plurality of first ring surfaces; heating the photoresist layer to form a plurality of body portions and removable portions; etching the photoresist layer; forming a plurality of bump protection layers on the titanium-containing metal layer, the first top surface and the first ring surface, each of the bump protection layers comprises a bump coverage portion; plating a plurality of gold layers at the bump coverage portion; eventually, removing the second zones to enable each of the first zones to form an under bump metallurgy layer. | 10-03-2013 |