Floating Or Plural Gate Structure (epo) Patents (Class 257/E21.179)
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Patent number: 8058160Abstract: A method of forming the gate patterns of a nonvolatile memory device comprises stacking a gate insulating layer and a first conductive layer over a semiconductor substrate; forming isolation hard mask patterns over the first conductive layer; etching the first conductive layer using the isolation hard mask patterns as etch barriers, thus exposing the gate insulating layer; etching the gate insulating layer using the isolation hard mask patterns as etch barriers, thus exposing the semiconductor substrate; after exposing the semiconductor substrate, forming a passivation layer on the sidewalls of the first conductive layers and on the sidewalls of the gate insulating layers; and etching the semiconductor substrate using the passivation layer and the isolation hard mask patterns as etch barriers, thus forming trenches in the semiconductor substrate.Type: GrantFiled: June 16, 2010Date of Patent: November 15, 2011Assignee: Hynix Semiconductor Inc.Inventor: Chan Sun Hyun
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Patent number: 8043907Abstract: Embodiments of the invention provide memory devices and methods for forming such memory devices. In one embodiment, a method for fabricating a non-volatile memory device on a substrate is provided which includes depositing a first polysilicon layer on a substrate surface, depositing a silicon oxide layer on the first polysilicon layer, depositing a first silicon oxynitride layer on the silicon oxide layer, depositing a silicon nitride layer on the first silicon oxynitride layer, depositing a second silicon oxynitride layer on the silicon nitride layer, and depositing a second polysilicon layer on the second silicon oxynitride layer. In some examples, the first polysilicon layer is a floating gate and the second polysilicon layer is a control gate.Type: GrantFiled: January 14, 2010Date of Patent: October 25, 2011Assignee: Applied Materials, Inc.Inventors: Yi Ma, Shreyas S. Kher, Khaled Ahmed, Tejal Goyani, Maitreyee Mahajani, Jallepally Ravi, Yi-Chiau Huang
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Patent number: 8043908Abstract: A method of fabricating a semiconductor device is provided. First, a stacked structure is formed on a substrate. The stacked structure includes, from the substrate, a dielectric layer and a conductive gate in order. An ion implant process is performed to form doped regions in the substrate on the opposite sides of the stacked structure. Thereafter, source-side spacer is formed on a sidewall of the stacked structure. A thermal process is performed to activate the doped regions, thereby forming a source in the substrate under the sidewall of the stacked structure having the source-side spacer and a drain in the substrate on another side of the stacked structure.Type: GrantFiled: August 6, 2010Date of Patent: October 25, 2011Assignee: MACRONIX International Co., Ltd.Inventor: Cheng-Ming Yih
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Patent number: 8039337Abstract: A nonvolatile memory device with a blocking layer controlling the transfer of electric charges in a charge storage layer includes the blocking layer having a first blocking layer in contact with the charge storage layer and a second blocking layer over the first blocking layer, wherein the first blocking layer has a greater energy band gap than the second blocking layer and the second blocking layer has a greater permittivity than the first blocking layer.Type: GrantFiled: March 14, 2011Date of Patent: October 18, 2011Assignee: Hynix Semiconductor Inc.Inventors: Heung-Jae Cho, Moon-Sig Joo, Yong-Soo Kim, Won-Joon Choi
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Patent number: 8039345Abstract: A method of forming a semiconductor device may include forming a first pattern on a substrate, and forming a first dielectric layer on the first pattern. The first pattern may be between portions of the first dielectric layer and the substrate. A second dielectric layer may be formed on the first dielectric layer, and the first dielectric layer may be between the first pattern and the second dielectric layer. A second pattern may be formed on the second dielectric layer. Portions of the second dielectric layer may be exposed by the second pattern, and the first and second dielectric layers may be between portions of the first and second patterns. The exposed portions of the second dielectric layer may be isotropically etched.Type: GrantFiled: June 16, 2010Date of Patent: October 18, 2011Assignee: Samsung Electronics Co., Ltd.Inventors: Kyung-yub Jeon, Jong-heui Song, Song-yi Yang
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Patent number: 8035163Abstract: In preferred embodiments, the invention provides substrates that include a support, a first insulating layer arranged on the support, a non-mono-crystalline semi-conducting layer arranged on the first insulating layer, a second insulating layer arranged on the non-mono-crystalline semi-conducting layer; and top layer disposed on the second insulating layer. Additionally, a first gate electrode can be formed on the top layer and a second gate electrode can be formed in the non-mono-crystalline semi-conducting layer. The invention also provides methods for manufacture of such substrates.Type: GrantFiled: May 21, 2009Date of Patent: October 11, 2011Assignee: S.O.I.Tec Silicon on Insulator TechnologiesInventors: Bich-Yen Nguyen, Carlos Mazure
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Patent number: 8030160Abstract: A string of nonvolatile memory cells connected in series includes fixed charges located between floating gates and the underlying substrate surface. Such a fixed charge affects distribution of charge carriers in an underlying portion of the substrate and thus affects threshold voltage of a device. A fixed charge layer may extend over source/drain regions also.Type: GrantFiled: March 23, 2010Date of Patent: October 4, 2011Assignee: SanDisk Technologies Inc.Inventors: Takashi Orimoto, George Matamis, Henry Chien, James Kai
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Patent number: 8030150Abstract: A method of fabricating a non-volatile memory integrated circuit device and a non-volatile memory integrated circuit device fabricated by using the method are provided. A device isolation region is formed in a substrate to define a cell array region and a peripheral circuit region. A plurality of first and second pre-stacked gate structures is formed in the cell array region, and each has a structure in which a lower structure, a conductive pattern and a first sacrificial layer pattern are stacked. Junction regions are formed in the cell array region. Spacers are formed on side walls of the first and second pre-stacked gate structures. A second sacrificial layer pattern filling each space between the second pre-stacked gate structures is formed. The first sacrificial layer pattern is removed from each of the first and second pre-stacked gate structures.Type: GrantFiled: March 4, 2009Date of Patent: October 4, 2011Assignee: Samsung Electronics Co., Ltd.Inventors: Byoung-ho Kwon, Chang-ki Hong, Bo-un Yoon, Jun-yong Kim
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Patent number: 8026139Abstract: In a method of fabricating a non-volatile memory device, a semiconductor substrate includes an isolation layer formed in an isolation region, a tunnel insulating layer and a first conductive layer for a floating gate formed in an active region, and a dielectric layer, a second conductive layer for a control gate, and a gate hard mask formed over the first conductive layer including the isolation layer. The second conductive layer is patterned using the gate hard mask as an etch mask. The dielectric layer is patterned so that the first conductive layer, which is exposed as the dielectric layer is etched, is also etched. The first conductive layer is patterned along a pattern of the gate hard mask. Accordingly, at the time of gate patterning, micro bridges between the floating gates can be prevented and a 2-bit failure between neighboring cells is less likely.Type: GrantFiled: December 20, 2007Date of Patent: September 27, 2011Assignee: Hynix Semiconductor Inc.Inventor: In No Lee
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Patent number: 8017467Abstract: A semiconductor memory device includes a first select transistor, first stepped portion, and a first contact plug. The first select transistor is formed on a side of an upper surface of a substrate and has a first multi-layer gate. The first stepped portion is formed by etching the substrate adjacent to the first multi-layer gate of the first select transistor such that the first stepped portion forms a cavity in the upper surface of the substrate. The first contact plug is formed in the first stepped portion.Type: GrantFiled: September 14, 2010Date of Patent: September 13, 2011Assignee: Kabushiki Kaisha ToshibaInventor: Toshitake Yaegashi
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Patent number: 8012831Abstract: An embodiment of the invention relates to a method of forming an isolation layer of a flash memory device. An isolation layer is formed using a PSZ-based material and a nitride film of liner form is deposited on a trench before the PSZ film is deposited. An oxide film can be prevented from remaining on a top of the sidewalls of a conductive film for a floating gate through an etch process employing the etch rate. The thickness of a dielectric film can be prevented from increasing when a dielectric film is deposited. Accordingly, the contact area of the floating gate and the dielectric film can be increased and the coupling ratio between the floating gate and the control gate can be improved.Type: GrantFiled: December 11, 2007Date of Patent: September 6, 2011Assignee: Hynix Semiconductor Inc.Inventors: Sang Soo Lee, Cha Deok Dong, Hyun Soo Shon, Woo Ri Jeong
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Patent number: 8008152Abstract: A method of manufacturing a semiconductor device comprising a first insulating film formed on a semiconductor substrate, a charge storage layer formed on the first insulating film, a second insulating film formed on the charge storage layer, and a control electrode formed on the second insulating film, forming the second insulating film comprises forming a lower insulating film containing oxygen and a metal element, thermally treating the lower insulating film in an atmosphere containing oxidizing gas, and forming an upper insulating film on the thermally treated lower insulating film using film forming gas containing at least one of hydrogen and chlorine.Type: GrantFiled: March 29, 2007Date of Patent: August 30, 2011Assignee: Kabushiki Kaisha ToshibaInventors: Ryota Fujitsuka, Katsuaki Natori, Daisuke Nishida, Masayuki Tanaka, Katsuyuki Sekine, Yoshio Ozawa, Akihito Yamamoto
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Patent number: 7989290Abstract: Isolated conductive nanoparticles on a dielectric layer and methods of fabricating such isolated conductive nanoparticles provide charge traps in electronic structures for use in a wide range of electronic devices and systems. In an embodiment, conductive nanoparticles are deposited on a dielectric layer by a plasma-assisted deposition process such that each conductive nanoparticle is isolated from the other conductive nanoparticles to configure the conductive nanoparticles as charge traps.Type: GrantFiled: March 23, 2009Date of Patent: August 2, 2011Assignee: Micron Technology, Inc.Inventors: Eugene P. Marsh, Brenda D Kraus
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Patent number: 7989288Abstract: A transistor construction includes a first floating gate having a first conductive or semiconductive surface and a second floating gate having a second conductive or semiconductive surface. A dielectric region is circumferentially surrounded by the first surface. The region is configured to reduce capacitive coupling between the first and second surfaces. Another transistor construction includes a floating gate having a cavity extending completely through the floating gate from a first surface of the floating gate to an opposing second surface of the floating gate. The floating gate otherwise encloses the cavity, which is filled with at least one dielectric. A method includes closing an upper portion of an opening in insulator material with a gate material during the deposition before filling a lower portion with the gate material. The depositing and closing provide an enclosed cavity within the lower portion of the opening.Type: GrantFiled: July 22, 2010Date of Patent: August 2, 2011Assignee: Micron Technology, Inc.Inventor: Seiichi Aritome
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Patent number: 7985649Abstract: A method of making a semiconductor device on a semiconductor layer is provided. The method includes: forming a select gate dielectric layer over the semiconductor layer; forming a select gate layer over the select gate dielectric layer; and forming a sidewall of the select gate layer by removing at least a portion of the select gate layer. The method further includes growing a sacrificial layer on at least a portion of the sidewall of the select gate layer and under at least a portion of the select gate layer and removing the sacrificial layer to expose a surface of the at least portion of the sidewall of the select gate layer and a surface of the semiconductor layer under the select gate layer. The method further includes forming a control gate dielectric layer, a charge storage layer, and a control gate layer.Type: GrantFiled: January 7, 2010Date of Patent: July 26, 2011Assignee: Freescale Semiconductor, Inc.Inventors: Brian A. Winstead, Cheong M. Hong, Sung-Taeg Kang, Konstantin V. Loiko, Spencer E. Williams
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Patent number: 7981746Abstract: The present invention provides a semiconductor device including a semiconductor substrate provided with a trench section; a tunnel insulating film covering an inner surface of the trench section; a trap layer provided in contact with the tunnel insulating film on an inner surface of an upper portion of the trench section; a top insulating film provided in contact with the trap layer; a gate electrode embedded in the trench section, and provided in contact with the tunnel insulating film at a lower portion of the trench section and in contact with the top insulating film at the upper portion of the trench section, in which the trap layer and the top insulating film, in between the lower portion of the trench section and the upper portion of the trench section, extend and protrude from both sides of the trench section so as to be embedded in the gate electrode, and a method for manufacturing thereof.Type: GrantFiled: December 22, 2008Date of Patent: July 19, 2011Assignee: Spansion LLCInventors: Fumiaki Toyama, Fumihiko Inoue
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Patent number: 7977226Abstract: A flash memory device and a method for fabricating the same are disclosed. The flash memory device includes an ONO layer on a substrate, polysilicon gates on the ONO layer, a gate oxide layer on the substrate, the ONO layer and the polysilicon gates, and a low temperature oxide layer and polysilicon sidewall spacers on outer side surfaces of the polysilicon gates, except in a region between nearest adjacent polysilicon gates.Type: GrantFiled: December 21, 2009Date of Patent: July 12, 2011Assignee: Dongbu HiTek Co., Ltd.Inventor: Ki Jun Yun
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Publication number: 20110151655Abstract: The present disclosure provides various methods of fabricating a semiconductor device. A method of fabricating a semiconductor device includes providing a semiconductor substrate and forming a gate structure over the substrate. The gate structure includes a first spacer and a second spacer formed apart from the first spacer. The gate structure also includes a dummy gate formed between the first and second spacers. The method also includes removing a portion of the dummy gate from the gate structure thereby forming a partial trench. Additionally, the method includes removing a portion of the first spacer and a portion of the second spacer adjacent the partial trench thereby forming a widened portion of the partial trench. In addition, the method includes removing a remaining portion of the dummy gate from the gate structure thereby forming a full trench. A high k film and a metal gate are formed in the full trench.Type: ApplicationFiled: December 18, 2009Publication date: June 23, 2011Inventors: Bor-Wen Chan, Hsueh Wen Tsau, Kuang-Yuan Hsu
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Patent number: 7960266Abstract: High density semiconductor devices and methods of fabricating the same are provided. Spacer fabrication techniques are utilized to form circuit elements having reduced feature sizes, which in some instances are smaller than the smallest lithographically resolvable element size of the process being used. Spacers are formed that serve as a mask for etching one or more layers beneath the spacers. An etch stop pad layer having a material composition substantially similar to the spacer material is provided between a dielectric layer and an insulating sacrificial layer such as silicon nitride. When etching the sacrificial layer, the matched pad layer provides an etch stop to avoid damaging and reducing the size of the dielectric layer. The matched material compositions further provide improved adhesion for the spacers, thereby improving the rigidity and integrity of the spacers.Type: GrantFiled: June 1, 2010Date of Patent: June 14, 2011Assignee: SanDisk CorporationInventors: James Kai, George Matamis, Tuan Duc Pham, Masaaki Higashitani, Takashi Orimoto
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Patent number: 7951670Abstract: A split gate memory cell. A floating gate is disposed on and insulated from a substrate comprising an active area separated by a pair of isolation structures formed therein. The floating gate is disposed between the pair of isolation structures and does not overlap the upper surface thereof. A cap layer is disposed on the floating gate. A control gate is disposed over the sidewall of the floating gate and insulated therefrom, partially extending to the upper surface of the cap layer. A source region is formed in the substrate near one side of the floating gate.Type: GrantFiled: March 6, 2006Date of Patent: May 31, 2011Assignee: Taiwan Semiconductor Manufacturing Co., Ltd.Inventors: Chen-Ming Huang, Hung-Cheng Sung, Wen-Ting Chu, Chang-Jen Hsieh, Ya-Chen Kao
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Publication number: 20110117735Abstract: Nonvolatile memory devices may be fabricated to include a switching device on a substrate and/or a storage node electrically connected to the switching device. A storage node may include a lower metal layer electrically connected to the switching device, a first insulating layer, a middle metal layer, a second insulating layer, an upper metal layer, a carbon nanotube layer, and/or a passivation layer stacked on the lower metal layer.Type: ApplicationFiled: January 3, 2011Publication date: May 19, 2011Inventors: Chang-wook Moon, Joong S. Jeon, El Mostafa Bourim, Hyun-deok Yang
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Publication number: 20110111582Abstract: Disclosed is a method for depositing a polysilicon thin film with ultra-fine crystal grains. According to the present invention, the polysilicon thin film is deposited on a substrate by supplying source gases inside a chamber in which the substrate is loaded, wherein the source gases include a silicon-based gas and an oxygen-based gas. The mixing ratio of the oxygen-based gas to the silicon-based gas may be 0.15 or less (excluding 0). The oxygen within the thin film may be 20 atomic % (atomic percentage) or less (excluding 0).Type: ApplicationFiled: April 29, 2009Publication date: May 12, 2011Inventors: Hai Won Kim, Sang Ho Woo, Sung Gil Cho, Song Hwan, Kyung Soo Jung
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Patent number: 7939407Abstract: Semiconductor-based non-volatile memory that includes memory cells with composite charge storage elements is fabricated using an etch stop layer during formation of at least a portion of the storage element. One composite charge storage element suitable for memory applications includes a first charge storage region having a larger gate length or dimension in a column direction than a second charge storage region. While not required, the different regions can be formed of the same or similar materials, such as polysilicon. Etching a second charge storage layer selectively with respect to a first charge storage layer can be performed using an interleaving etch-stop layer. The first charge storage layer is protected from overetching or damage during etching of the second charge storage layer. Consistency in the dimensions of the individual memory cells can be increased.Type: GrantFiled: November 9, 2009Date of Patent: May 10, 2011Assignee: SanDisk CorporationInventors: Vinod Robert Purayath, George Matamis, Takashi Orimoto, James Kai
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Patent number: 7923328Abstract: A non-volatile memory cell including a substrate in which is formed a source region and a drain region defining a channel region between the source region and the drain region is provided. The non-volatile memory cell further includes a select gate structure overlying a first portion of the channel region. The non-volatile memory cell further includes a control gate structure formed overlying a second portion of the channel region, wherein the control gate structure includes a nanocrystal stack having a height, wherein the control gate structure has a convex shape in a corner region formed at an intersection of a first plane substantially parallel to a top surface of the substrate and a second plane substantially parallel to a side surface of the control gate structure, wherein a ratio of radius of the control gate structure in the corner region to the height of the nanocrystal stack is at least 0.5.Type: GrantFiled: April 15, 2008Date of Patent: April 12, 2011Assignee: Freescale Semiconductor, Inc.Inventors: Ted R. White, Brian A. Winstead
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Patent number: 7923315Abstract: The present invention relates to a method for fabricating a planar independent-double-gate FET or a planar gate-all-around FET on a bulk semiconductor substrate. The method comprises refilling a surface recess in an active semiconductor region with a buried sacrificial layer, and, after preparing a pre-processing a gate stack by respective deposition and patterning, the formation of a recess in the isolation regions so as to cause the recess to extend, in a depth direction that points towards the inner substrate, to a depth level that allows removing the buried sacrificial layer and so as to cause the recess to undercut portions of gate stack in the channel direction.Type: GrantFiled: December 18, 2008Date of Patent: April 12, 2011Assignee: NXP B.V.Inventors: Arnaud Pouydebasque, Philippe Coronel, Stephanne Denorme
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Patent number: 7923769Abstract: A non-volatile memory cell including a substrate in which is formed a source region and a drain region defining a channel region between the source region and the drain region is provided. The non-volatile memory cell further includes a select gate structure overlying a first portion of the channel region. The non-volatile memory cell further includes a control gate structure formed overlying a second portion of the channel region, wherein the control gate structure includes a nanocrystal stack having a height, wherein the control gate structure has a convex shape in a corner region formed at an intersection of a first plane substantially parallel to a top surface of the substrate and a second plane substantially parallel to a side surface of the control gate structure, wherein a ratio of radius of the control gate structure in the corner region to the height of the nanocrystal stack is at least 0.5.Type: GrantFiled: October 21, 2010Date of Patent: April 12, 2011Assignee: Freescale Semiconductor, Inc.Inventors: Ted R. White, Brian A. Winstead
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Patent number: 7919806Abstract: Disclosed herein is a nonvolatile semiconductor memory device, including a memory transistor. The memory transistor has a channel formation region defined between two source and drain regions formed on a semiconductor substrate a bottom insulating film, a charge storage film and a top insulating film formed in order at least on the channel formation region, the charge storage film having a charge storage function, and a gate electrode formed on the top insulating film. The bottom insulating film is formed from a plurality of films containing nitrogen such that the content of nitrogen of a lowermost one of the films which contacts with the channel formation region and an uppermost one of the films which contacts with the gate electrode is higher than that of the other one or ones of the films which exist between the uppermost and lowermost films.Type: GrantFiled: August 13, 2007Date of Patent: April 5, 2011Assignee: Sony CorporationInventors: Ichiro Fujiwara, Hiroshi Aozasa
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Patent number: 7919367Abstract: A non-volatile memory cell with increased charge retention is fabricated on the same substrate as logic devices using a single-gate conventional logic process. A silicide-blocking dielectric structure is formed over a floating gate of the NVM cell, thereby preventing silicide formation over the floating gate, while allowing silicide formation over the logic devices. Silicide spiking and bridging are prevented in the NVM cell, as silicide-blocking dielectric structure prevents silicide metal from coming in contact with the floating gate or adjacent sidewall spacers. The silicide-blocking dielectric layer may expose portions of the active regions of the NVM cell, away from the floating gate and adjacent sidewall spacers, thereby enabling silicide formation on these portions. Alternately, the silicide-blocking dielectric layer may cover the active regions of the NVM cell during silicide formation. In this case, silicide-blocking dielectric layer may be thinned or removed after silicide formation.Type: GrantFiled: January 28, 2008Date of Patent: April 5, 2011Assignee: MoSys, Inc.Inventors: Gang-feng Fang, Dennis Sinitsky, Wingyu Leung
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Patent number: 7915124Abstract: A method of fabricating a memory system is disclosed that includes a set of non-volatile storage elements. The method includes forming a floating gate having a top and at least two sides. A dielectric cap is formed at the top of the floating gate. An inter-gate dielectric layer is formed around the at least two sides of the floating gate and over the top of the dielectric cap. A control gate is formed over the top of the floating gate, the inter-gate dielectric layer separates the control gate from the floating gate. In one aspect, forming the dielectric cap includes implanting oxygen in the top of the floating gate and heating the floating gate to form the dielectric cap from the implanted oxygen and silicon from which the floating gate was formed.Type: GrantFiled: July 9, 2008Date of Patent: March 29, 2011Assignee: Sandisk CorporationInventors: James K. Kai, Dana Lee, Takashi Whitney Orimoto, Vinod R. Purayath, George Matamis, Henry Chin
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Patent number: 7915120Abstract: Provided is a method of fabricating a non-volatile semiconductor device. The method includes: forming a first hard mask layer over a substrate; etching the first hard mask layer and the substrate to form a plurality of isolation trenches extending in parallel to one another in a first direction; burying a dielectric layer in the isolation trenches to form a isolation layer; forming a plurality of floating gate mask patterns extending in parallel to one another in a second direction intersecting with the first direction over a resulting structure where the isolation layer is formed; etching the first hard mask layer by using the floating gate mask patterns as an etch barrier to form a plurality of island-shaped floating gate electrode trenches; and burying a conductive layer in the floating gate electrode trenches to form a plurality of island-shaped floating gate electrodes.Type: GrantFiled: April 29, 2009Date of Patent: March 29, 2011Assignee: Hynix Semiconductor Inc.Inventors: Jung-Woo Park, Jin-Ki Jung, Kwon Hong, Ki-Seon Park
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Patent number: 7910424Abstract: A semiconductor memory includes memory cell transistors including a tunnel insulating film, a floating gate electrode, a first insulating film, a control gate electrode, and a first metal salicide film; low-voltage transistors having a first p-type source region and a first p-type drain region, a first gate insulating film, and a first gate electrode of an n conductivity type having the same dose of a first p-type impurity as with the first p-type source region; and high-voltage transistors having a second p-type source region and a second p-type drain region, a second gate insulating film thicker than the first gate insulating film, and a second gate electrode of an n conductivity type having the same dose of a second p-type impurity as with the second p-type source region.Type: GrantFiled: November 25, 2008Date of Patent: March 22, 2011Assignee: Kabushiki Kaisha ToshibaInventor: Masato Endo
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Patent number: 7902019Abstract: A semiconductor device comprises a silicate interface layer and a high-k dielectric layer overlying the silicate interface layer. The high-k dielectric layer comprises metal alloy oxides.Type: GrantFiled: April 4, 2008Date of Patent: March 8, 2011Assignee: Samsung Electronics Co., Ltd.Inventors: Jong-Ho Lee, Nae-In Lee
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Patent number: 7897455Abstract: A semiconductor device manufacturing method includes forming a first insulating film on a semiconductor substrate containing silicon, the first insulating film having a first dielectric constant and constituting a part of a tunnel insulating film, forming a floating gate electrode film on the first insulating film, the floating gate electrode film being formed of a semiconductor film containing silicon, patterning the floating gate electrode film, the first insulating film, and the semiconductor substrate to form a first structure having a first side surface, exposing the first structure to an atmosphere containing an oxidizing agent, oxidizing that part of the floating gate electrode film which corresponds to a boundary between the first insulating film and the floating gate electrode film using the oxidizing agent, to form a second insulating film having a second dielectric constant smaller than the first dielectric constant and constituting a part of the tunnel insulating film.Type: GrantFiled: September 22, 2006Date of Patent: March 1, 2011Assignee: Kabushiki Kaisha ToshibaInventors: Yoshio Ozawa, Isao Kamioka
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Patent number: 7892960Abstract: The method for forming a triple gate oxide of a semiconductor device includes the steps of defining a first region, a second region and a third region, forming a first oxide film and forming a second oxide film on the first oxide film, blocking the first region and selectively removing portions the second oxide film and the first oxide film, forming a third oxide film on the semiconductor substrate, blocking the first region and the second region and selectively removing a portion of the third oxide film and forming a fourth oxide film on the semiconductor substrate and then forming a nitride film thereon, wherein a gate oxide having a triple structure is formed in the first region, a gate oxide having a double structure is formed in the second region and a gate oxide having a double structure is formed in the third region.Type: GrantFiled: December 29, 2008Date of Patent: February 22, 2011Assignee: MagnaChip Semiconductor, Ltd.Inventor: Jung Goo Park
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Patent number: 7883964Abstract: A nonvolatile semiconductor memory includes: a device region and a device isolating region, which have a pattern with a striped form that extends in a first direction, and are alternately and sequentially disposed at a first pitch in a second direction that is perpendicular to the first direction; and a contact made of a first conductive material, which is connected to the device region and disposed at the first pitch in the second direction. On a cross section of the second direction, the bottom width of the contact is longer than the top width of the contact, and the bottom width is longer than the width of the device region.Type: GrantFiled: July 29, 2008Date of Patent: February 8, 2011Assignee: Kabushiki Kaisha ToshibaInventors: Akira Goda, Hiroyuki Nitta
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Patent number: 7880214Abstract: A nonvolatile semiconductor storage device in which one unit cell comprises a select gate 3 (3a-3i) provided in a first region on a substrate 1; a floating gate 6 provided in a second region adjacent to the first region; a diffused region 7b adjacent to the second region and provided in a third region on the surface of the substrate 1; and a control gate 11 provided on the floating gate 6. The select gate 3 is divided into three or more in an erase block 23 composed of all unit cells, from each of which electrons are extracted from the floating gate, at the same time when an erase operation is performed. Each of the select gates 3a-3i, created by the division, is formed in a comb-like shape in which, when viewed from the direction of a normal line to a plane, a plurality of comb teeth extend from a common line. The comb teeth of a select gate (for example, 3b) are arranged in gaps between the comb teeth of an adjacent select gate (for example, 3a, 3c) at a predetermined spacing.Type: GrantFiled: May 11, 2006Date of Patent: February 1, 2011Assignee: Renesas Electronics CorporationInventors: Naoaki Sudo, Kohji Kanamori
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Patent number: 7879674Abstract: The use of a germanium carbide (GeC), or a germanium silicon carbide (GeSiC) layer as a floating gate material to replace heavily doped polysilicon (poly) in fabricating floating gates in EEPROM and flash memory results in increased tunneling currents and faster erase operations. Forming the floating gate includes depositing germanium-silicon-carbide in various combinations to obtain the desired tunneling current values at the operating voltage of the memory device.Type: GrantFiled: March 30, 2007Date of Patent: February 1, 2011Assignee: Micron Technology, Inc.Inventors: Leonard Forbes, Kie Y. Ahn
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Patent number: 7867837Abstract: A polysilicon layer provided for a polysilicon electrode (8) is patterned by means of a resist mask (5) and an auxiliary layer (4) made of a material that is suitable as an antireflection layer, the auxiliary layer (4) being provided with lateral hollowed-out recesses in such a way that the polysilicon electrode is formed with rounded edges (7) during etching. The auxiliary layer is preferably produced from a soluble material and with a thickness of 70 nm to 80 nm. A base layer (2) may be provided as a gate dielectric of memory cell transistors and additionally as an etching stop layer.Type: GrantFiled: January 13, 2006Date of Patent: January 11, 2011Assignee: Austriamicrosystems AGInventors: Franz Bermann, Günther Koppitsch, Sven Schroeter
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Patent number: 7863133Abstract: Non-volatile memory cell structures are described that are formed by a method including forming a first oxide layer on a horizontal strained substrate, forming at least one first recess through the first oxide layer to the strained substrate, and forming at least one vertical epitaxial structure in the recess. A crystal lattice of the vertical epitaxial structure is aligned with a crystal lattice of the strained substrate.Type: GrantFiled: February 6, 2009Date of Patent: January 4, 2011Assignee: Micron Technology, Inc.Inventor: Lyle Jones
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Patent number: 7863128Abstract: A memory device may include a substrate, a first dielectric layer formed over the substrate and a charge storage element formed over the first dielectric layer. The memory device may also include a second dielectric layer formed over the charge storage element and a third dielectric layer formed over the second dielectric layer. The third dielectric layer may have a high dielectric constant and may be deposited at a relatively high temperature. A control gate may be formed over the third dielectric layer.Type: GrantFiled: February 4, 2005Date of Patent: January 4, 2011Assignees: Spansion LLC, GLOBALFOUNDRIES, Inc.Inventors: Joong Jeon, Takashi Whitney Orimoto, Robert B. Ogle, Harpreet Sachar, Wei Zheng
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Patent number: 7863134Abstract: A charge holding insulating film in a memory cell is constituted by a laminated film composed of a bottom insulating film, a charge storage film, and a top insulating film on a semiconductor substrate. Further, by performing a plasma nitriding treatment to the bottom insulating film, a nitride region whose nitrogen concentration has a peak value and is 1 atom % or more is formed on the upper surface side in the bottom insulating film. The thickness of the nitride region is set to 0.5 nm or more and 1.5 nm or less, and the peak value of nitrogen concentration is set to 5 atom % or more and 40 atom % or less, and a position of the peak value of nitrogen concentration is set within 2 nm from the upper surface of the bottom insulating film, thereby suppressing an interaction between the bottom insulating film and the charge storage film.Type: GrantFiled: January 28, 2010Date of Patent: January 4, 2011Assignee: Renesas Electronics CorporationInventors: Hirotaka Hamamura, Itaru Yanagi, Toshiyuki Mine
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Patent number: 7858463Abstract: A semiconductor integrated circuit device includes a substrate, a nonvolatile memory device formed in a memory cell region of the substrate, and a semiconductor device formed in a device region of the substrate. The nonvolatile memory device has a multilayer gate electrode structure including a tunnel insulating film and a floating gate electrode formed thereon. The floating gate electrode has sidewall surfaces covered with a protection insulating film. The semiconductor device has a gate insulating film and a gate electrode formed thereon. A bird's beak structure is formed of a thermal oxide film at an interface of the tunnel insulating film and the floating gate electrode, the bird's beak structure penetrating into the floating gate electrode along the interface from the sidewall faces of the floating gate electrode, and the gate insulating film is interposed between the substrate and the gate electrode to have a substantially uniform thickness.Type: GrantFiled: October 1, 2008Date of Patent: December 28, 2010Assignee: Fujitsu Semiconductor LimitedInventors: Hiroshi Hashimoto, Koji Takahashi
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Patent number: 7858464Abstract: Methods of manufacturing non-volatile memory devices that can reduce or prevent loss of charges stored in a charge storage layer and/or that can improve charge storage capacity by neutral beam irradiation of an insulating layer are disclosed. The methods include forming a tunneling insulating layer on a substrate, forming a charge storage layer on the tunneling insulating layer, forming a blocking insulating layer on the charge storage layer, irradiating the blocking insulating layer and/or the tunneling insulating layer with a neutral beam, and forming a gate conductive layer on the blocking insulating layer.Type: GrantFiled: December 31, 2008Date of Patent: December 28, 2010Assignee: Samsung Electronics Co., Ltd.Inventors: Soo-doo Chae, Chung-woo Kim, Choong-man Lee, Yung-hee Lee, Chan-jin Park, Sung-wook Hwang, Jeong-hee Han, Do-haing Lee, Jin-seok Lee
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Patent number: 7859040Abstract: Non-volatile memory is described. The non-volatile memory includes a substrate having a source region, a drain region and a channel region. The channel region separates the source region and the drain region. An electrically insulating layer is adjacent to the source region, drain region and channel region. A floating gate electrode is adjacent to the electrically insulating layer. The electrically insulating layer separates the floating gate electrode from the channel region. The floating gate electrode has a floating gate major surface. A control gate electrode has a control gate major surface and the control gate major surface opposes the floating gate major surface. A vacuum layer or gas layer at least partially separates the control gate major surface from the floating gate major surface.Type: GrantFiled: July 10, 2008Date of Patent: December 28, 2010Assignee: Seagate Technology LLCInventor: Jun Zheng
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Patent number: 7851790Abstract: The present invention describes a method of and an apparatus for providing a wafer, the wafer including Silicon; etching trenches in the wafer to form Silicon fins; filling Silicon Oxide in the trenches; planarizing the Silicon Oxide; recessing the Silicon Oxide to a first thickness to form exposed Silicon pedestals from the Silicon fins; depositing SiGe over the exposed Silicon pedestal; recessing the Silicon Oxide to a second thickness; undercutting the exposed Silicon pedestals to form necked-in Silicon pedestals; oxidizing thermally and annealing the SiGe; and forming Germanium nanowires.Type: GrantFiled: December 30, 2008Date of Patent: December 14, 2010Assignee: Intel CorporationInventors: Willy Rachmady, Been-Yih Jin, Ravi Pillarisetty, Robert Chau
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Patent number: 7851846Abstract: A memory device, and method of making the same, in which a trench is formed into the surface of a semiconductor substrate. Source and drain regions define a channel region there between. The drain is formed under the trench. The channel region includes a first portion that extends along a bottom wall of the trench, a second portion that extends along a sidewall of the trench, and a third portion that extends along the surface of the substrate. The floating gate is disposed over the channel region third portion. The control gate is disposed over the floating gate. The select gate is at least partially disposed in the trench and adjacent to the channel region first and second portions. The erase gate disposed adjacent to and insulated from the floating gate.Type: GrantFiled: December 3, 2008Date of Patent: December 14, 2010Assignee: Silicon Storage Technology, Inc.Inventors: Nhan Do, Hieu V. Tran, Amitay Levi
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Patent number: 7851849Abstract: A nonvolatile semiconductor storage device includes: a plurality of stacked units juxtaposed on a major surface of a substrate, each stacked unit aligning in a first direction parallel to the major surface of the substrate; and a gate electrode aligning parallel to the major surface in a second direction non-parallel to the first direction. Each of the plurality of stacked units includes a plurality of stacked semiconductor layers via an insulating layer. The plurality of stacked units are juxtaposed so that the spacings between adjacent stacked units are alternately a first spacing and a second spacing larger than the first spacing. The second spacing is provided at a periodic interval four times a size of a half pitch F of the bit line. The gate electrode includes a protruding portion that enters into a gap of the second spacing between the stacked units.Type: GrantFiled: June 2, 2009Date of Patent: December 14, 2010Assignee: Kabushiki Kaisha ToshibaInventor: Masahiro Kiyotoshi
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Patent number: 7842564Abstract: In a method of manufacturing a semiconductor memory device, an opening is made in a part of an insulating film formed on a silicon substrate. An amorphous silicon thin film is formed on the insulating film in which the opening has been made and inside the opening. Then, a monocrystal is solid-phase-grown in the amorphous silicon thin film, with the opening as a seed, thereby forming a monocrystalline silicon layer. Then, the monocrystalline silicon layer is heat-treated in an oxidizing atmosphere, thereby thinning the monocrystalline silicon layer and reducing the defect density. Then, a memory cell array is formed on the monocrystalline silicon layer which has been thinned and whose defect density has been reduced.Type: GrantFiled: July 3, 2008Date of Patent: November 30, 2010Assignee: Kabushiki Kaisha ToshibaInventors: Ichiro Mizushima, Hirokazu Ishida, Yoshio Ozawa, Takashi Suzuki, Fumiki Aiso, Makoto Mizukami
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Patent number: 7838350Abstract: A bottom-gate thin film transistor having a silicide gate is described. This transistor is advantageously formed as SONOS-type nonvolatile memory cell, and methods are described to efficiently and robustly form a monolithic three dimensional memory array of such cells. The fabrication methods described avoid photolithography over topography and difficult stack etches of prior art monolithic three dimensional memory arrays of charge storage devices. The use of a silicide gate rather than a polysilicon gate allows increased capacitance across the gate oxide.Type: GrantFiled: October 31, 2007Date of Patent: November 23, 2010Assignee: SanDisk 3D LLCInventor: S. Brad Herner
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Patent number: 7833859Abstract: Methods for manufacturing semiconductor devices simultaneously to implement low-voltage and high-voltage devices in a single chip. In one example embodiment, a method includes various acts. An isolation layer is formed on a wafer. A gate oxide layer and a lower gate poly are sequentially formed on a first low-voltage transistor region. A first poly oxide layer is formed. A nitride layer is formed on the first poly oxide layer. The nitride layer and the first poly oxide layer are etched. A field oxide layer is formed by selectively oxidizing portions exposed by the etching. A second poly oxide layer is formed. Gate patterns of each transistor region are completed by vapor-depositing an upper gate poly on a high-voltage transistor region, the first low-voltage transistor region and a second low-voltage transistor region. A source and drain region are formed.Type: GrantFiled: December 18, 2008Date of Patent: November 16, 2010Assignee: Dongbu Hitek Co., Ltd.Inventor: Hee Bae Lee