| Patent application number | Description | Published |
|---|
| 20080283893 | ILLUMINATING EFFICIENCY-INCREASABLE AND LIGHT-ERASABLE EMBEDDED MEMORY STRUCTURE AND FABRICATING METHOD THEREOF - An illuminating efficiency-increasable and light-erasable embedded memory structure including a substrate, a memory device, many dielectric layers, many cap layers and at least three metal layers is described. The substrate includes a memory region and a core circuit region. The memory device includes a select gate and a floating gate, and the select gate and the floating gate are disposed adjacently on the substrate in the memory region. The dielectric layers are disposed on the substrate and cover the memory device. The dielectric layers have a first opening located above the floating gate. Each of the cap layers is disposed on each of the dielectric layers, respectively. The metal layers are disposed in the dielectric layers in the core circuit region. | 11-20-2008 |
| 20080293222 | METHOD FOR FORMING SILICON-GERMANIUM EPITAXIAL LAYER - A method for forming a SiGe epitaxial layer is described. A first SEG process is performed under a first condition, consuming about 1% to 20% of the total process time for forming the SiGe epitaxial layer. Then, a second SEG process is performed under a second condition, consuming about 99% to 80% of the total process time. The first condition and the second condition include different temperatures or pressures. The first and the second SEG processes each uses a reactant gas that includes at least a Si-containing gas and a Ge-containing gas. | 11-27-2008 |
| 20090206384 | ILLUMINATING EFFICIENCY-INCREASABLE AND LIGHT-ERASABLE MEMORY - An illuminating efficiency-increasable and light-erasable memory including a substrate, a memory device, many dielectric layers, and many cap layers is provided. The substrate includes a memory region. The memory device includes a select gate and a floating gate, and the select gate and the floating gate are disposed adjacently on the substrate in the memory region. The dielectric layers are disposed on the substrate and cover the memory device. The dielectric layers have an opening located above the floating gate. Each of the cap layers is disposed on each of the dielectric layers, respectively. | 08-20-2009 |
| 20090261401 | NON-VOLATILE MEMORY CELL AND METHOD OF FABRICATING THE SAME - A non-volatile memory cell is described, including a semiconductor substrate, two separate charge trapping structures on the substrate, first spacers at least on the opposite sidewalls of the two charge trapping structures, a gate dielectric layer on the substrate between the two charge trapping structures, a gate on the two charge trapping structures and the gate dielectirc layer, and two doped regions in the substrate beside the gate. | 10-22-2009 |
| 20090294903 | ANTI-FUSSE STRUCTURE AND METHOD OF FABRICATING THE SAME - An anti-fuse structure and a method of fabricating the same are described. The anti-fuse structure is disposed over a substrate having at least one device and a copper layer therein. The anti-fuse structure includes a bottom conductive layer, an insulating layer and a top conductive layer. The bottom conductive layer is disposed over and electrically connected with the copper layer. The insulating layer is conformally disposed over the bottom conductive layer covering a corner or a downward turning portion of the bottom conductive layer to form a turning portion of the insulating layer. The top conductive layer is conformally disposed over the insulting layer covering the turning portion of the insulating layer. | 12-03-2009 |
| 20100012974 | PIN PHOTODIODE STRUCTURE AND METHOD FOR MAKING THE SAME - A PIN photodiode structure includes a substrate, a P-doped region disposed in the substrate, an N-doped region disposed in the substrate, and a first semiconductor material disposed in the substrate and between the P-doped region and the N-doped region. | 01-21-2010 |
| 20110031555 | METAL OXIDE SEMICONDUCTOR TRANSISTOR - A metal oxide semiconductor transistor includes a substrate including a first well, a second well, and an insulation between the first well and the second well, a first gate structure disposed on the first well, a second gate structure disposed on the second well, four first dopant regions disposed in the substrate at two sides of the first gate structure, and in the substrate at two sides of the second gate structure respectively, two second dopant regions disposed in the substrate at two sides of the first gate structure respectively, two first epitaxial layers disposed in the substrate at two sides of the first gate structure respectively and two first source/drain regions disposed in the substrate at two sides of the first gate structure respectively, wherein each of the first source/drain regions overlaps with one of the first epitaxial layers and one of the second dopant regions simultaneously. | 02-10-2011 |
| 20110097866 | NON-VOLATILE MEMORY CELL AND METHOD OF FABRICATING THE SAME - A method of fabricating a non-volatile memory cell is disclosed. The method includes the steps of: forming two separate charge trapping structures on a semiconductor substrate; forming first spacers on sidewalls of the two charge trapping structures; forming a gate dielectric layer on the substrate; forming a gate on the two charge trapping structures and the gate dielectric layer between the two charge trapping structures; and forming two doped regions in the substrate besdie the gate. | 04-28-2011 |
