Patents by Inventor Graham Wolstenholme
Graham Wolstenholme has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20060008989Abstract: Methods and apparatus are described to facilitate forming memory devices with low resistance polysilicon local interconnects that allow a smaller array feature size and therefore facilitate forming arrays of a denser array format. Embodiments of the present invention are formed utilizing a wet etch process that has a high selectivity, allowing the deposition and etching of polysilicon local interconnects to source regions of array transistors. By providing for a local interconnect of polysilicon, a smaller source region and/or drain region can also be utilized, further decreasing the required word line spacing. Low resistance polysilicon local source interconnects can also couple to an increased number of memory cells, thereby reducing the number of contacts made to an array ground.Type: ApplicationFiled: September 1, 2005Publication date: January 12, 2006Inventors: Chun Chen, Guy Blalock, Graham Wolstenholme, Kirk Prall
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Publication number: 20060006455Abstract: Methods and apparatus are described to facilitate forming memory devices with low resistance polysilicon local interconnects that allow a smaller array feature size and therefore facilitate forming arrays of a denser array format. Embodiments of the present invention are formed utilizing a wet etch process that has a high selectivity, allowing the deposition and etching of polysilicon local interconnects to source regions of array transistors. By providing for a local interconnect of polysilicon, a smaller source region and/or drain region can also be utilized, further decreasing the required word line spacing. Low resistance polysilicon local source interconnects can also couple to an increased number of memory cells, thereby reducing the number of contacts made to an array ground.Type: ApplicationFiled: September 1, 2005Publication date: January 12, 2006Inventors: Chun Chen, Guy Blalock, Graham Wolstenholme, Kirk Prall
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Publication number: 20060009035Abstract: Methods and apparatus are described to facilitate forming memory devices with low resistance polysilicon local interconnects that allow a smaller array feature size and therefore facilitate forming arrays of a denser array format. Embodiments of the present invention are formed utilizing a wet etch process that has a high selectivity, allowing the deposition and etching of polysilicon local interconnects to source regions of array transistors. By providing for a local interconnect of polysilicon, a smaller source region and/or drain region can also be utilized, further decreasing the required word line spacing. Low resistance polysilicon local source interconnects can also couple to an increased number of memory cells, thereby reducing the number of contacts made to an array ground.Type: ApplicationFiled: September 1, 2005Publication date: January 12, 2006Inventors: Chun Chen, Guy Blalock, Graham Wolstenholme, Kirk Prall
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Publication number: 20060008963Abstract: Methods and apparatus are described to facilitate forming memory devices with low resistance polysilicon local interconnects that allow a smaller array feature size and therefore facilitate forming arrays of a denser array format. Embodiments of the present invention are formed utilizing a wet etch process that has a high selectivity, allowing the deposition and etching of polysilicon local interconnects to source regions of array transistors. By providing for a local interconnect of polysilicon, a smaller source region and/or drain region can also be utilized, further decreasing the required word line spacing. Low resistance polysilicon local source interconnects can also couple to an increased number of memory cells, thereby reducing the number of contacts made to an array ground.Type: ApplicationFiled: September 1, 2005Publication date: January 12, 2006Inventors: Chun Chen, Guy Blalock, Graham Wolstenholme, Kirk Prall
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Publication number: 20060008988Abstract: Methods and apparatus are described to facilitate forming memory devices with low resistance polysilicon local interconnects that allow a smaller array feature size and therefore facilitate forming arrays of a denser array format. Embodiments of the present invention are formed utilizing a wet etch process that has a high selectivity, allowing the deposition and etching of polysilicon local interconnects to source regions of array transistors. By providing for a local interconnect of polysilicon, a smaller source region and/or drain region can also be utilized, further decreasing the required word line spacing. Low resistance polysilicon local source interconnects can also couple to an increased number of memory cells, thereby reducing the number of contacts made to an array ground.Type: ApplicationFiled: September 1, 2005Publication date: January 12, 2006Inventors: Chun Chen, Guy Blalock, Graham Wolstenholme, Kirk Prall
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Publication number: 20050285148Abstract: Methods and apparatus are described to facilitate forming memory devices with low resistance polysilicon local interconnects that allow a smaller array feature size and therefore facilitate forming arrays of a denser array format. Embodiments of the present invention are formed utilizing a wet etch process that has a high selectivity, allowing the deposition and etching of polysilicon local interconnects to source regions of array transistors. By providing for a local interconnect of polysilicon, a smaller source region and/or drain region can also be utilized, further decreasing the required word line spacing. Low resistance polysilicon local source interconnects can also couple to an increased number of memory cells, thereby reducing the number of contacts made to an array ground.Type: ApplicationFiled: September 1, 2005Publication date: December 29, 2005Inventors: Chun Chen, Guy Blalock, Graham Wolstenholme, Kirk Prall
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Publication number: 20050280117Abstract: A method of making a vertical diode is provided, the vertical dioxide having associated therewith a diode opening extending through an insulation layer and contacting an active region on a silicon wafer. A titanium silicide layer covers the interior surface of the diode opening and contacts the active region. The diode opening is initially filled with an amorphous silicon plug that is doped during deposition and subsequently recrystallized to form large grain polysilicon. The silicon plug has a top portion that is heavily doped with a first type dopant and a bottom portion that is lightly doped with a second type dopant. The top portion is bounded by the bottom portion so as not to contact the titanium silicide layer. For one embodiment of the vertical diode, a programmable resistor contacts the top portion of the silicon plug and a metal line contacts the programmable resistor.Type: ApplicationFiled: August 24, 2005Publication date: December 22, 2005Inventors: Fernando Gonzalez, Tyler Lowrey, Trung Doan, Raymond Turi, Graham Wolstenholme
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Publication number: 20050242390Abstract: An embodiment of a floating-gate memory cell has a tunnel dielectric layer formed overlying a semiconductor substrate; a drain region formed in a semiconductor substrate adjacent a first side of the tunnel dielectric layer, a source region formed in a semiconductor substrate adjacent a second side of the tunnel dielectric layer, a floating-gate layer formed overlying the tunnel dielectric layer, a control-gate layer formed overlying the floating-gate layer, and an intergate dielectric layer formed interposed between the floating-gate layer and the control gate layer. The control-gate layer includes a silicide layer in contact with an underlying polysilicon layer. There is no interposing dielectric layer between the control-gate layer and an overlying bulk insulator layer, and a width of the silicide layer is substantially equal to a width of the polysilicon layer.Type: ApplicationFiled: July 5, 2005Publication date: November 3, 2005Inventors: Chun Chen, Graham Wolstenholme
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Patent number: 6949792Abstract: Semiconductor devices are disclosed utilizing at least one polysilicon structure in a stacked gate region according to the present invention. The stacked gate region includes a substrate, at least one trench, an oxide layer, at least one floating gate layer and the at least one polysilicon structure. The at least one polysilicon structure is formed adjacent to vertical edges of the at least one floating gate layer and above the oxide layer. The polysilicon structure, which includes polysilicon wings and ears, is used to increase the capacitive coupling of memory cells in memory devices, thereby allowing for further reduction or scaling in the size of memory cells and devices.Type: GrantFiled: May 24, 2004Date of Patent: September 27, 2005Assignee: Micron Technology, Inc.Inventors: Kelly T. Hurley, Graham Wolstenholme
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Patent number: 6939764Abstract: Concurrently forming self-aligned silicides on word lines and contacts of a memory device facilitates reduced resistance and/or reduced device sizing. The word-line silicide is formed at a stage significantly later than in standard processing, decreasing concerns of thermal stability of the silicide, thus allowing the use of lower-resistance silicides. In addition, by forming contacts to drain and/or source regions prior to forming the silicide for the word lines, aspect ratios for the contact holes or trenches are reduced for a given pitch, thus improving effectiveness of processing to remove material from these holes and trenches or allowing the use of a smaller pitch. By providing a process for the application of a silicide in array source interconnects, a single array source interconnect can couple an entire row of memory cells, thereby reducing the number of contacts made to an array ground.Type: GrantFiled: June 24, 2003Date of Patent: September 6, 2005Assignee: Micron Technology, Inc.Inventors: Chun Chen, Graham Wolstenholme
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Publication number: 20050104114Abstract: Methods and apparatus are described to facilitate forming memory devices with low resistance polysilicon local interconnects that allow a smaller array feature size and therefore facilitate forming arrays of a denser array format. Embodiments of the present invention are formed utilizing a wet etch process that has a high selectivity, allowing the deposition and etching of polysilicon local interconnects to source regions of array transistors. By providing for a local interconnect of polysilicon, a smaller source region and/or drain region can also be utilized, further decreasing the required word line spacing. Low resistance polysilicon local source interconnects can also couple to an increased number of memory cells, thereby reducing the number of contacts made to an array ground.Type: ApplicationFiled: November 17, 2003Publication date: May 19, 2005Inventors: Chun Chen, Guy Blalock, Graham Wolstenholme, Kirk Prall
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Publication number: 20050098825Abstract: The invention includes a memory device supported by a semiconductor substrate and comprising in ascending order from the substrate: a floating gate, a dielectric material, a layer consisting essentially of tungsten nitride, a first mass consisting essentially of tungsten, and a second mass consisting essentially of one or more nitride compounds. The invention includes a memory device having a floating gate and a dielectric material over the floating gate. The device has a mass consisting essentially of tungsten over the dielectric material, with the mass having a pair of opposing sidewalls. A pair of sidewall spacers are along the opposing sidewalls of the mass. The sidewall spacers comprise a first layer consisting essentially of one or more nitride compounds and a second layer different from the first layer. The invention includes methods of making memory devices.Type: ApplicationFiled: December 9, 2004Publication date: May 12, 2005Inventors: Paul Rudeck, Graham Wolstenholme, Robert Carr
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Patent number: 6873005Abstract: The invention includes a memory device supported by a semiconductor substrate and comprising in ascending order from the substrate: a floating gate, a dielectric material, a layer consisting essentially of tungsten nitride, a first mass consisting essentially of tungsten, and a second mass consisting essentially of one or more nitride compounds. The invention includes a memory device having a floating gate and a dielectric material over the floating gate. The device has a mass consisting essentially of tungsten over the dielectric material, with the mass having a pair of opposing sidewalls. A pair of sidewall spacers are along the opposing sidewalls of the mass. The sidewall spacers comprise a first layer consisting essentially of one or more nitride compounds and a second layer different from the first layer. The invention includes methods of making memory devices.Type: GrantFiled: May 4, 2004Date of Patent: March 29, 2005Assignee: Micron Technology, Inc.Inventors: Paul J. Rudeck, Graham Wolstenholme, Robert Carr
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Publication number: 20050009272Abstract: Concurrently formed self-aligned suicides on word lines and contacts of a memory device facilitate reduced resistance and/or reduced device sizing. The word-line suicide is formed at a stage significantly later than in standard processing, decreasing concerns of thermal stability of the silicide, thus allowing the use of lower-resistance silicides. In addition, by forming contacts to drain and/or source regions prior to forming the silicide for the word lines, aspect ratios for the contact holes or trenches are reduced for a given pitch, thus improving effectiveness of processing to remove material from these holes and trenches or allowing the use of a smaller pitch. By providing a process for the application of a silicide in array source interconnects, a single array source interconnect can couple an entire row of memory cells, thereby reducing the number of contacts made to an array ground.Type: ApplicationFiled: June 24, 2003Publication date: January 13, 2005Inventors: Chun Chen, Graham Wolstenholme
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Publication number: 20040245565Abstract: Semiconductor devices are disclosed utilizing at least one polysilicon structure in a stacked gate region according to the present invention. The stacked gate region includes a substrate, at least one trench, an oxide layer, at least one floating gate layer and the at least one polysilicon structure. The at least one polysilicon structure is formed adjacent to vertical edges of the at least one floating gate layer and above the oxide layer. The polysilicon structure, which includes polysilicon wings and ears, is used to increase the capacitive coupling of memory cells in memory devices, thereby allowing for further reduction or scaling in the size of memory cells and devices.Type: ApplicationFiled: May 24, 2004Publication date: December 9, 2004Inventors: Kelly T. Hurley, Graham Wolstenholme
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Patent number: 6808989Abstract: Methods and devices are disclosed utilizing a polysilicon wings or ears in a stacked gate region. The stacked gate region includes a substrate, at least one trench, an oxide layer, at least one floating gate layer and at least one polysilicon wing. The substrate has at least one semiconductor layer. The at least one trench is formed in the substrate and filled with an oxide. The oxide layer is formed over the substrate and the trench. The at least one floating gate layer is formed over the oxide layer. The at least one polysilicon wing is formed adjacent to vertical edges of the at least one floating gate layer and over the oxide layer. The present invention includes polysilicon wings or ears which can increase the capacitive coupling of memory cells in memory devices in which they are used. Generally, the polysilicon wings or ears are placed proximate to the floating gate of a memory cell. Thus, the present invention may allow for further reducing or scaling the size of memory cells and devices.Type: GrantFiled: June 25, 2002Date of Patent: October 26, 2004Assignee: Micron Technology, Inc.Inventors: Kelly T. Hurley, Graham Wolstenholme
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Publication number: 20040201060Abstract: The invention includes a memory device supported by a semiconductor substrate and comprising in ascending order from the substrate: a floating gate, a dielectric material, a layer consisting essentially of tungsten nitride, a first mass consisting essentially of tungsten, and a second mass consisting essentially of one or more nitride compounds. The invention includes a memory device having a floating gate and a dielectric material over the floating gate. The device has a mass consisting essentially of tungsten over the dielectric material, with the mass having a pair of opposing sidewalls. A pair of sidewall spacers are along the opposing sidewalls of the mass. The sidewall spacers comprise a first layer consisting essentially of one or more nitride compounds and a second layer different from the first layer. The invention includes methods of making memory devices.Type: ApplicationFiled: May 4, 2004Publication date: October 14, 2004Inventors: Paul J. Rudeck, Graham Wolstenholme, Robert Carr
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Patent number: 6803624Abstract: The invention includes a memory device supported by a semiconductor substrate and comprising in ascending order from the substrate: a floating gate, a dielectric material, a layer consisting essentially of tungsten nitride, a first mass consisting essentially of tungsten, and a second mass consisting essentially of one or more nitride compounds. The invention includes a memory device having a floating gate and a dielectric material over the floating gate. The device has a mass consisting essentially of tungsten over the dielectric material, with the mass having a pair of opposing sidewalls. A pair of sidewall spacers are along the opposing sidewalls of the mass. The sidewall spacers comprise a first layer consisting essentially of one or more nitride compounds and a second layer different from the first layer. The invention includes methods of making memory devices.Type: GrantFiled: July 3, 2002Date of Patent: October 12, 2004Assignee: Micron Technology, Inc.Inventors: Paul J. Rudeck, Graham Wolstenholme, Robert Carr
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Patent number: 6777291Abstract: The invention includes a method of making a programmable memory device. At least one floating gate layer is formed over a semiconductor substrate. A dielectric material is formed over the at least one floating gate layer, and a mass consisting essentially of W is formed over the dielectric material. The mass has a pair of opposing sidewalls. A first layer is formed over the mass and along the sidewalls of the mass, and a second layer is formed over the first layer. The second layer extends over the mass and along the sidewalls of the mass, and has a different composition than the first layer. After the second layer is formed, the first and second layers are anisotropically etched to form sidewall spacers extending along the sidewalls of the mass.Type: GrantFiled: April 30, 2003Date of Patent: August 17, 2004Assignee: Micron Technology, Inc.Inventors: Paul J. Rudeck, Graham Wolstenholme, Robert Carr
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Patent number: 6759708Abstract: Semiconductor devices are disclosed utilizing at least one polysilicon structure in a stacked gate region according to the present invention. The stacked gate region includes a substrate, at least one trench, an oxide layer, at least one floating gate layer and the at least one polysilicon structure. The at least one polysilicon structure is formed adjacent to vertical edges of the at least one floating gate layer and above the oxide layer. The polysilicon structure, which includes polysilicon wings and ears, is used to increase the capacitive coupling of memory cells in memory devices, thereby allowing for further reduction or scaling in the size of memory cells and devices.Type: GrantFiled: October 17, 2002Date of Patent: July 6, 2004Assignee: Micron Technology, Inc.Inventors: Kelly T. Hurley, Graham Wolstenholme