| Patent application number | Description | Published |
|---|
| 20080248625 | METHODS FOR ENHANCING TRENCH CAPACITANCE AND TRENCH CAPACITOR - Methods for enhancing trench capacitance and a trench capacitor so formed are disclosed. In one embodiment a method includes forming a first portion of a trench; depositing a dielectric layer in the first portion; performing a reactive ion etching including a first stage to etch the dielectric layer and form a micro-mask on a bottom surface of the first portion of the trench and a second stage to form a second portion of the trench having a rough sidewall; depositing a node dielectric; and filling the trench with a conductor. The rough sidewall enhances trench capacitance without increasing processing complexity or cost. | 10-09-2008 |
| 20090047791 | SEMICONDUCTOR ETCHING METHODS - A method of etching semiconductor structures is disclosed. The method may include etching an SRAM portion of a semiconductor device, the method comprising: providing a silicon substrate layer, a nitride layer thereover, an optical dispersive layer over the nitride layer, and a silicon anti-reflective coating layer thereover; etching the silicon anti-reflective coating layer using an image layer; removing the image layer; etching the optical dispersive layer while removing the silicon anti-reflective coating layer; etching the optical dispersive layer and the nitride layer simultaneously; and etching the optical dispersive layer, the nitride layer, and the silicon substrate simultaneously. | 02-19-2009 |
| 20090104776 | METHODS FOR FORMING NESTED AND ISOLATED LINES IN SEMICONDUCTOR DEVICES - A method for forming lines for semiconductor devices including, depositing a shallow trench isolation (STI) film stack on a silicon substrate, depositing a layer of polysilicon on the STI film stack, depositing a layer of antireflective coating on the layer of polysilicon, developing a phototoresist on the antireflective coating, wherein the photoresist defines a line, etching the layer of antireflective coating and the layer of polysilicon using RIE with a low bias power, removing the photoresist, removing the layer of antireflective coating, etching the STI film stack to form the line, wherein the layer of polysilicon further defines the line. | 04-23-2009 |
| 20090158234 | VERTICAL SOI TRENCH SONOS CELL - A semiconductor memory device and a design structure including the semiconductor memory device embodied in a machine readable medium is provided. In particular the present invention includes a semiconductor memory device in which a vertical trench semiconductor-oxide-nitride-oxide-semiconductor (SONOS) memory cell is created in a semiconductor-on-insulator (SOI) substrate is provided that allows for the integration of dense non-volatile random access memory (NVRAM) cells in SOI-based complementary metal oxide semiconductor (CMOS) technology. The trench is processed using conventional trench processing and it is processed near the beginning of the inventive method that allows for the fabrication of the memory cell to be fully separated from SOI logic processing. | 06-18-2009 |
| 20090189242 | METHOD FOR NON-SELECTIVE SHALLOW TRENCH ISOLATION REACTIVE ION ETCH FOR PATTERNING HYBRID-ORIENTED DEVICES COMPATIBLE WITH HIGH-PERFORMANCE HIGHLY-INTEGRATED LOGIC DEVICES - Disclosed are embodiments of a hybrid-orientation technology (HOT) wafer and a method of forming the HOT wafer with improved shallow trench isolation (STI) structures for patterning devices in both silicon-on-insulator (SOI) regions, having a first crystallographic orientation, and bulk regions, having a second crystallographic orientation. The improved STI structures are formed using a non-selective etch process to ensure that all of the STI structures and, particularly, the STI structures at the SOI-bulk interfaces, each extend to the semiconductor substrate and have an essentially homogeneous (i.e., single material) and planar (i.e., divot-free) bottom surface that is approximately parallel to the top surface of the substrate. Optionally, an additional selective etch process can be used to extend the STI structures a predetermined depth into the substrate. | 07-30-2009 |
