Patent application number | Description | Published |
20090039405 | ORO AND ORPRO WITH BIT LINE TRENCH TO SUPPRESS TRANSPORT PROGRAM DISTURB - Memory devices having improved TPD characteristics and methods of making the memory devices are provided. The memory devices contain two or more memory cells on a semiconductor substrate and bit line openings containing a bit line dielectric between the memory cells. The memory cell contains a charge storage layer and a first poly gate. The bit line opening extends into the semiconductor substrate. By containing the bit line dielectric in the bit line openings that extend into the semiconductor substrate, the memory device can improve the electrical isolation between memory cells, thereby preventing and/or mitigating TPD. | 02-12-2009 |
20090042378 | USE OF A POLYMER SPACER AND SI TRENCH IN A BITLINE JUNCTION OF A FLASH MEMORY CELL TO IMPROVE TPD CHARACTERISTICS - Memory devices having improved TPD characteristics and methods of making the memory devices are provided. The memory devices contain two or more memory cells on a semiconductor substrate and bit line dielectrics between the memory cells. The bit line dielectrics can extend into the semiconductor. The memory cell contains one or more charge storage nodes, a first poly gate, a pair of first bit lines, and a pair of second bit lines. The second bit line can be formed at a higher energy level, a higher concentration of dopants, or a combination thereof compared to an energy level and a concentration of dopants of the first bit line. | 02-12-2009 |
20090101963 | SPLIT CHARGE STORAGE NODE INNER SPACER PROCESS - Methods of forming a memory cell containing two split sub-lithographic charge storage nodes on a semiconductor substrate are provided. The methods can involve forming two split sub-lithographic charge storage nodes by using spacer formation techniques. By removing exposed portions of a first poly layer while leaving portions of the first poly layer protected by the spacers, the method can provide two split sub-lithographic first poly gates. Further, by removing exposed portions of a charge storage layer while leaving portions of the charge storage layer protected by the two split sub-lithographic first poly gates, the method can provide two split, narrow portions of the charge storage layer, which subsequently form two split sub-lithographic charge storage nodes. | 04-23-2009 |
20090111265 | SELECTIVE SILICIDE FORMATION USING RESIST ETCHBACK - Methods of selectively forming metal silicides on a memory device are provided. The methods can include forming a mask layer over the memory device; forming a patterned resist over the mask layer; removing upper portions of the patterned resist; forming a patterned mask layer by removing portions of the mask layer that are not covered by the patterned resist; and forming metal silicides on the memory device by a chemical reaction of a metal layer formed on the memory device with portions of the memory device that are not covered by the patterned mask layer. By preventing silicidation of underlying silicon containing layers/components of the memory device that are covered by the patterned mask layer, the methods can selectively form the metal silicides on the desired portions of the memory device. | 04-30-2009 |
20100099249 | SELECTIVE SILICIDE FORMATION USING RESIST ETCH BACK - Methods of selectively forming metal silicides on a memory device are provided. The methods can include forming a mask layer over the memory device; forming a patterned resist over the mask layer; removing upper portions of the patterned resist; forming a patterned mask layer by removing portions of the mask layer that are not covered by the patterned resist; and forming metal silicides on the memory device by a chemical reaction of a metal layer formed on the memory device with portions of the memory device that are not covered by the patterned mask layer. By preventing silicidation of underlying silicon containing layers/components of the memory device that are covered by the patterned mask layer, the methods can selectively form the metal silicides on the desired portions of the memory device. | 04-22-2010 |
20100123178 | High ultraviolet light absorbance silicon oxynitride film for improved flash memory device performance - An ultraviolet light absorbent silicon oxynitride layer overlies a memory cell including a pair of source/drains, a gate insulator, a floating gate, a dielectric layer, and a control gate. A conductor is disposed through the silicon oxynitride layer for electrical connection to the control gate, and another conductor is disposed through the silicon oxynitride layer for electrical connection to a source/drain. | 05-20-2010 |
20100155785 | HTO OFFSET SPACERS AND DIP OFF PROCESS TO DEFINE JUNCTION - Memory devices having an increased effective channel length and/or improved TPD characteristics, and methods of making the memory devices are provided. The memory devices contain two or more memory cells on a semiconductor substrate and bit line dielectrics between the memory cells. The memory cell contains a pair of first bit lines and a pair of second bit lines. The first and second bit lines can be formed by an implant process using first and second spacers that have different lateral lengths from each other. The spacers can be used to offset the implants, thereby controlling the lateral lengths of the bit lines. | 06-24-2010 |
20100155816 | HTO OFFSET AND BL TRENCH PROCESS FOR MEMORY DEVICE TO IMPROVE DEVICE PERFORMANCE - Memory devices having an increased effective channel length and/or improved TPD characteristics, and methods of making the memory devices are provided. The memory devices contain two or more memory cells on a semiconductor substrate and bit line dielectrics between the memory cells. The bit line dielectrics can extend into the semiconductor. The memory cell contains a charge trapping dielectric stack, a poly gate, a pair of pocket implant regions, and a pair of bit lines. The bit line can be formed by an implant process at a higher energy level and/or a higher concentration of dopants without suffering device short channel roll off issues because spacers at bit line sidewalls constrain the implant in narrower implant regions. | 06-24-2010 |
20100155817 | HTO OFFSET FOR LONG LEFFECTIVE, BETTER DEVICE PERFORMANCE - Memory devices having an increased effective channel length and/or improved TPD characteristics, and methods of making the memory devices are provided. The memory devices contain two or more memory cells on a semiconductor substrate and bit line dielectrics between the memory cells. The memory cell contains a charge trapping dielectric stack, a poly gate, a pair of pocket implant regions, and a pair of bit lines. The bit line can be formed by an implant process at a higher energy level and/or a higher concentration of dopants without suffering device short channel roll off issues because spacers at bit line sidewalls constrain the implant in narrower implant regions. | 06-24-2010 |
20100187597 | METHOD OF FORMING SPACED-APART CHARGE TRAPPING STACKS - Methods are provided for fabricating memory devices. A method comprises fabricating charge-trapping stacks overlying a silicon substrate and forming bit line regions in the substrate between the charge trapping stacks. Insulating elements are formed overlying the bit line regions between the stacks. The charge-trapping stacks are etched to form two complementary charge storage nodes and to expose portions of the silicon substrate. Silicon is grown on the exposed silicon substrate by selective epitaxial growth and is oxidized. A control gate layer is formed overlying the complementary charge storage nodes and the oxidized epitaxially-grown silicon. | 07-29-2010 |
20100264480 | USE OF A POLYMER SPACER AND SI TRENCH IN A BITLINE JUNCTION OF A FLASH MEMORY CELL TO IMPROVE TPD CHARACTERISTICS - Memory devices having improved TPD characteristics and methods of making the memory devices are provided. The memory devices contain two or more memory cells on a semiconductor substrate and bit line dielectrics between the memory cells. The bit line dielectrics can extend into the semiconductor. The memory cell contains one or more charge storage nodes, a first poly gate, a pair of first bit lines, and a pair of second bit lines. The second bit line can be formed at a higher energy level, a higher concentration of dopants, or a combination thereof compared to an energy level and a concentration of dopants of the first bit line. | 10-21-2010 |
20110169069 | HTO OFFSET AND BL TRENCH PROCESS FOR MEMORY DEVICE TO IMPROVE DEVICE PERFORMANCE - Memory devices having an increased effective channel length and/or improved TPD characteristics, and methods of making the memory devices are provided. The memory devices contain two or more memory cells on a semiconductor substrate and bit line dielectrics between the memory cells. The bit line dielectrics can extend into the semiconductor. The memory cell contains a charge trapping dielectric stack, a poly gate, a pair of pocket implant regions, and a pair of bit lines. The bit line can be formed by an implant process at a higher energy level and/or a higher concentration of dopants without suffering device short channel roll off issues because spacers at bit line sidewalls constrain the implant in narrower implant regions. | 07-14-2011 |
20110278660 | ORO AND ORPRO WITH BIT LINE TRENCH TO SUPPRESS TRANSPORT PROGRAM DISTURB - Memory devices having improved TPD characteristics and methods of making the memory devices are provided. The memory devices contain two or more memory cells on a semiconductor substrate and bit line openings containing a bit line dielectric between the memory cells. The memory cell contains a charge storage layer and a first poly gate. The bit line opening extends into the semiconductor substrate. By containing the bit line dielectric in the bit line openings that extend into the semiconductor substrate, the memory device can improve the electrical isolation between memory cells, thereby preventing and/or mitigating TPD. | 11-17-2011 |
20130277733 | FLASH MEMORY DEVICES AND METHODS FOR FABRICATING SAME - Flash memory devices and methods for fabricating the same are provided. In accordance with an exemplary embodiment of the invention, a method for fabricating a memory device comprises the steps of fabricating a first gate stack and a second gate stack overlying a substrate. A trench is etched into the substrate between the first gate stack and the second gate stack and a first impurity doped region is formed within the substrate underlying the trench. The trench is filled at least partially with a conductive material. | 10-24-2013 |
20140167138 | HTO OFFSET FOR LONG LEFFECTIVE, BETTER DEVICE PERFORMANCE - Memory devices having an increased effective channel length and/or improved TPD characteristics, and methods of making the memory devices are provided. The memory devices contain two or more memory cells on a semiconductor substrate and bit line dielectrics between the memory cells. The memory cell contains a charge trapping dielectric stack, a poly gate, a pair of pocket implant regions, and a pair of bit lines. The bit line can be formed by an implant process at a higher energy level and/or a higher concentration of dopants without suffering device short channel roll off issues because spacers at bit line sidewalls constrain the implant in narrower implant regions. | 06-19-2014 |