Patents by Inventor Robert P. Chebi
Robert P. Chebi 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: 20190270960Abstract: Microfluidic filter devices and methods of fabricating such devices. A microfluidic filter device for capturing an object (e.g., a red blood cell) can include a filter structure having a plurality of through holes extending from a first side of the filter structure to a second side of the filter structure and arranged in a repeating pattern, the through holes sized to capture the object. The device further includes a substrate including a plurality of vanes that supports at least a portion of the filter structure, a plurality of electrodes comprising a set of electrodes associated with each through hole, each set of electrodes including at least a pair of electrodes associated with each through hole and aligned with its associated through hole to apply electrical forces to an object captured in the through hole, and electrical connections to each of the plurality of electrodes.Type: ApplicationFiled: September 11, 2017Publication date: September 5, 2019Inventors: Fanqing Chen, Robert P. Chebi, Binbin Fang
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Publication number: 20190225930Abstract: Microfluidic devices for capturing objects that may be, for example, a red blood cell. The device can include at least one filter that includes a filter structure comprising multiple through holes from a first side of the filter structure to a second side of the filter structure and arranged in a known repeating pattern, each of the through holes having a first opening on the first side of the filter structure, a second opening on the second side of the filter structure, and a passageway through the filter structure between the first and second openings. The filter structure may have a thickness of 1 ?m to 20 ?m, and a substrate including a plurality of vanes that supports at least a portion of the filter structure, the filter structure disposed relative to the plurality of vanes such that the second side of the filter structure is adjacent to the plurality of vanes.Type: ApplicationFiled: September 11, 2017Publication date: July 25, 2019Inventors: Fanqing Chen, Robert P. Chebi, Binbin Fang
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Publication number: 20180059026Abstract: A Raman spectroscopy structure includes a substrate, a conductive layer formed on the substrate, a dielectric layer formed on the conductive layer, wherein the dielectric layer has a first thickness, and spaced apart conductive structures formed on the dielectric layer having a periodicity. Each of the conductive structures has a second thickness and a shape that defines a localized surface plasmonic resonance (LSPR) frequency mode having a width. The dielectric layer defines two Fabry-Perot frequency modes that overlap within the width of the LSPR frequency mode. A desirable double resonance is achieved by two frequency Fabry-Perot modes overlapping within the width of a single frequency plasmonic mode.Type: ApplicationFiled: August 21, 2017Publication date: March 1, 2018Inventors: Jian Ye, Fanqing Frank Chen, Robert P. Chebi
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Patent number: 9857307Abstract: In improved nonoplasmonic resonator (NPR) structure includes a silicon substrate having an upper surface, and a plurality of columns of silicon extending up from the substrate upper surface. Each of the columns includes a sidewall and terminates at an upper end. An insulation material is disposed on the sidewalls and upper ends of the columns. For each of the columns, the insulation material terminates in a bulge at an upper end of the column. A conductive layer is disposed on the insulation material along the column sidewalls and upper ends.Type: GrantFiled: August 19, 2016Date of Patent: January 2, 2018Assignee: OPTOKEY, INC.Inventors: Fanqing Frank Chen, Robert P. Chebi
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Patent number: 9719931Abstract: A nanoplasmonic resonator (NPR) includes a substrate, a first metallic member disposed on the substrate, a second metallic member spaced apart from the first metallic member, and a first insulation layer at least partially disposed between the first and second metallic members. The first insulation layer includes at least one of a notch formed laterally therein such that there is an open gap separating outer edge portions of the first and second metallic members, at least a portion thereof having a toroid shape, and a length extending between the first and second metallic members which are laterally adjacent to each other.Type: GrantFiled: July 15, 2014Date of Patent: August 1, 2017Assignee: OPTOKEY, INC.Inventors: Fanqing Frank Chen, Robert P. Chebi
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Publication number: 20170052121Abstract: In improved nonoplasmonic resonator (NPR) structure includes a silicon substrate having an upper surface, and a plurality of columns of silicon extending up from the substrate upper surface. Each of the columns includes a sidewall and terminates at an upper end. An insulation material is disposed on the sidewalls and upper ends of the columns. For each of the columns, the insulation material terminates in a bulge at an upper end of the column. A conductive layer is disposed on the insulation material along the column sidewalls and upper ends.Type: ApplicationFiled: August 19, 2016Publication date: February 23, 2017Inventors: Fanqing Frank Chen, Robert P. Chebi
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Publication number: 20160146736Abstract: A nanoplasmonic resonator (NPR) includes a substrate, a first metallic member disposed on the substrate, a second metallic member spaced apart from the first metallic member, and a first insulation layer at least partially disposed between the first and second metallic members. The first insulation layer includes at least one of a notch formed laterally therein such that there is an open gap separating outer edge portions of the first and second metallic members, at least a portion thereof having a toroid shape, and a length extending between the first and second metallic members which are laterally adjacent to each other.Type: ApplicationFiled: July 15, 2014Publication date: May 26, 2016Inventors: Fanqing Frank Chen, Robert P. Chebi
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Patent number: 9318341Abstract: Methods for etching a substrate in a plasma etch reactor may include (a) depositing polymer on surfaces of a feature formed in substrate disposed in the etch reactor using first reactive species formed from a first process gas comprising a polymer forming gas; (b) etching the bottom surface of the feature of the substrate in the etch reactor using a third reactive species formed from a third process gas including an etching gas; and (c) bombarding a bottom surface of the feature with a second reactive species formed from a second process gas comprising one or more of an inert gas, an oxidizing gas, a reducing gas, or the polymer forming gas while at least one of depositing the polymer to remove at least some of the polymer disposed on the bottom surface or etching the bottom surface to at least one of chemically or physically damage the bottom surface.Type: GrantFiled: November 29, 2011Date of Patent: April 19, 2016Assignee: APPLIED MATERIALS, INC.Inventors: Robert P. Chebi, Alan Cheshire, Gabriel Roupillard, Alfredo Granados
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Patent number: 9018098Abstract: A silicon layer is etched through a patterned mask formed thereon using an etch chamber. A fluorine (F) containing etch gas and a silicon (Si) containing chemical vapor deposition gas are provided in the etch chamber. The fluorine (F) containing etch gas is used to etch features into the silicon layer, and the silicon (Si) containing chemical vapor deposition gas is used to form a silicon-containing deposition layer on sidewalls of the features. A plasma is generated from the etch gas and the chemical vapor deposition gas, and a bias voltage is provided. Features are etched into the silicon layer using the plasma, and a silicon-containing passivation layer is deposited on the sidewalls of the features which are being etched. Silicon in the passivation layer primarily comes from the chemical vapor deposition gas. The etch gas and the chemical vapor deposition gas are then stopped.Type: GrantFiled: October 23, 2008Date of Patent: April 28, 2015Assignee: Lam Research CorporationInventors: Jaroslaw W. Winniczek, Robert P. Chebi
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Publication number: 20140261803Abstract: A gas chamber contains upper and lower chamber bodies forming a cavity, a heating chuck for a wafer, a remote gas source, and an exhaust unit. Gas is injected into the cavity through channels in an injector. Each channel has sections that are bent with respect to each other at a sufficient angle to substantially eliminate entering light rays entering the channel from exiting the channel without reflection. The channels have funnel-shaped nozzles at end points proximate to the chuck. The injector also has thermal expansion relief slots and small gaps between the injector and mating surfaces of the chamber and gas source. The temperature of the injector is controlled by a cooling liquid in cooling channels and electrical heaters in receptacles of the injector. The upper chamber body is funnel-shaped and curves downward at an end of the upper chamber body proximate to the chuck.Type: ApplicationFiled: March 15, 2013Publication date: September 18, 2014Inventors: Ing-Yann Wang, Jaroslaw W. Winniczek, David J. Cooperberg, Erik A. Edelberg, Robert P. Chebi
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Patent number: 8757178Abstract: A method and apparatus remove photoresist from a wafer. A process gas containing sulfur (S), oxygen (O), and hydrogen (H) is provided, and a plasma is generated from the process gas in a first chamber. A radical-rich ion-poor reaction medium is flown from the first chamber to a second chamber where the wafer is placed. The patterned photoresist layer on the wafer is removed using the reaction medium, and then the reaction medium flowing into the second chamber is stopped. Water vapor may be introduced in a solvation zone provided in a passage of the reaction medium flowing down from the plasma such that the water vapor solvates the reaction medium to form solvated clusters of species before the reaction medium reaches the wafer. The photoresist is removed using the solvated reaction medium.Type: GrantFiled: September 22, 2011Date of Patent: June 24, 2014Assignee: Lam Research CorporationInventors: Robert P. Chebi, Jaroslaw W. Winniczek
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Patent number: 8598037Abstract: A method of etching a silicon layer through a patterned mask is provided. The method uses an etch chamber in which the silicon layer is placed. The method includes (a) providing the silicon layer having the patterned mask formed thereon, (b) providing an etch gas comprising a fluorine containing gas and an oxygen and hydrogen containing gas into the etch chamber in which the silicon layer has been placed, (c) generating a plasma from the etch gas, (d) etching features into the silicon layer through the patterned mask using the plasma, and (e) stopping the etch gas. The oxygen and hydrogen containing gas contains water vapor.Type: GrantFiled: December 28, 2011Date of Patent: December 3, 2013Assignee: Lam Research CorporationInventors: Jaroslaw W. Winniczek, Robert P. Chebi
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Patent number: 8425682Abstract: A gas chamber contains upper and lower chamber bodies forming a cavity, a heating chuck for a wafer, a remote gas source, and an exhaust unit. Gas is injected into the cavity through channels in an injector. Each channel has sections that are bent with respect to each other at a sufficient angle to substantially eliminate entering light rays entering the channel from exiting the channel without reflection. The channels have funnel-shaped nozzles at end points proximate to the chuck. The injector also has thermal expansion relief slots and small gaps between the injector and mating surfaces of the chamber and gas source. The temperature of the injector is controlled by a cooling liquid in cooling channels and electrical heaters in receptacles of the injector. The upper chamber body is funnel-shaped and curves downward at an end of the upper chamber body proximate to the chuck.Type: GrantFiled: September 21, 2012Date of Patent: April 23, 2013Assignee: Lam Research CorporationInventors: Ing-Yann Wang, Jaroslaw W. Winniczek, David J. Cooperberg, Erik A. Edelberg, Robert P. Chebi
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Patent number: 8298336Abstract: A gas chamber contains upper and lower chamber bodies forming a cavity, a heating chuck for a wafer, a remote gas source, and an exhaust unit. Gas is injected into the cavity through channels in an injector. Each channel has sections that are bent with respect to each other at a sufficient angle to substantially eliminate entering light rays entering the channel from exiting the channel without reflection. The channels have funnel-shaped nozzles at end points proximate to the chuck. The injector also has thermal expansion relief slots and small gaps between the injector and mating surfaces of the chamber and gas source. The temperature of the injector is controlled by a cooling liquid in cooling channels and electrical heaters in receptacles of the injector. The upper chamber body is funnel-shaped and curves downward at an end of the upper chamber body proximate to the chuck.Type: GrantFiled: April 1, 2005Date of Patent: October 30, 2012Assignee: Lam Research CorporationInventors: Ing-Yann Wang, Jaroslaw W. Winniczek, David J. Cooperberg, Erik A. Edelberg, Robert P. Chebi
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Publication number: 20120152895Abstract: Methods for etching a substrate in a plasma etch reactor may include (a) depositing polymer on surfaces of a feature formed in substrate disposed in the etch reactor using first reactive species formed from a first process gas comprising a polymer forming gas; (b) etching the bottom surface of the feature of the substrate in the etch reactor using a third reactive species formed from a third process gas including an etching gas; and (c) bombarding a bottom surface of the feature with a second reactive species formed from a second process gas comprising one or more of an inert gas, an oxidizing gas, a reducing gas, or the polymer forming gas while at least one of depositing the polymer to remove at least some of the polymer disposed on the bottom surface or etching the bottom surface to at least one of chemically or physically damage the bottom surface.Type: ApplicationFiled: November 29, 2011Publication date: June 21, 2012Applicant: APPLIED MATERIALS, INC.Inventors: ROBERT P. CHEBI, ALAN CHESHIRE, GABRIEL ROUPILLARD, ALFREDO GRANADOS
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Publication number: 20120152900Abstract: Methods and apparatus for gas delivery into plasma processing chambers are provided herein. In some embodiments, an apparatus for processing a substrate includes a process chamber having a processing volume, a substrate support disposed in the processing volume, an inductively coupled plasma source to generate an electric field within the processing volume that includes one or more regions of local maxima in the magnitude of the electric field, and one or more gas injectors to selectively direct a predominant portion of a process gas flowed through the one or more gas injectors into the one or more regions of local maxima.Type: ApplicationFiled: November 29, 2011Publication date: June 21, 2012Applicant: APPLIED MATERIALS, INC.Inventors: ROBERT P. CHEBI, STANLEY DETMAR, ALAN CHESHIRE, GABRIEL ROUPILLARD, ALFREDO GRANADOS
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Patent number: 8173547Abstract: A method and apparatus for etching a silicon layer through a patterned mask formed thereon are provided. The silicon layer is placed in an etch chamber. An etch gas comprising a fluorine containing gas and an oxygen and hydrogen containing gas is provided into the etch chamber. A plasma is generated from the etch gas and features are etched into the silicon layer using the plasma. The etch gas is then stopped. The plasma may contain OH radicals.Type: GrantFiled: October 23, 2008Date of Patent: May 8, 2012Assignee: Lam Research CorporationInventors: Jaroslaw W. Winniczek, Robert P. Chebi
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Publication number: 20120100720Abstract: A method of etching a silicon layer through a patterned mask is provided. The method uses an etch chamber in which the silicon layer is placed. The method includes (a) providing the silicon layer having the patterned mask formed thereon, (b) providing an etch gas comprising a fluorine containing gas and an oxygen and hydrogen containing gas into the etch chamber in which the silicon layer has been placed, (c) generating a plasma from the etch gas, (d) etching features into the silicon layer through the patterned mask using the plasma, and (e) stopping the etch gas. The oxygen and hydrogen containing gas contains water vapor.Type: ApplicationFiled: December 28, 2011Publication date: April 26, 2012Applicant: LAM RESEARCH CORPORATIONInventors: Jaroslaw W. WINNICZEK, Robert P. CHEBI
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Publication number: 20120006486Abstract: A method and apparatus remove photoresist from a wafer. A process gas containing sulfur (S), oxygen (O), and hydrogen (H) is provided, and a plasma is generated from the process gas in a first chamber. A radical-rich ion-poor reaction medium is flown from the first chamber to a second chamber where the wafer is placed. The patterned photoresist layer on the wafer is removed using the reaction medium, and then the reaction medium flowing into the second chamber is stopped. Water vapor may be introduced in a solvation zone provided in a passage of the reaction medium flowing down from the plasma such that the water vapor solvates the reaction medium to form solvated clusters of species before the reaction medium reaches the wafer. The photoresist is removed using the solvated reaction medium.Type: ApplicationFiled: September 22, 2011Publication date: January 12, 2012Applicant: LAM RESEARCH CORPORATIONInventors: Robert P. CHEBI, Jaroslaw W. WINNICZEK
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Patent number: 8043434Abstract: A method and apparatus remove photoresist from a wafer. A process gas containing sulfur (S), oxygen (O), and hydrogen (H) is provided, and a plasma is generated from the process gas in a first chamber. A radical-rich ion-poor reaction medium is flown from the first chamber to a second chamber where the wafer is placed. The patterned photoresist layer on the wafer is removed using the reaction medium, and then the reaction medium flowing into the second chamber is stopped. Water vapor may be introduced in a salvation zone provided in a passage of the reaction medium flowing down from the plasma such that the water vapor solvates the reaction medium to form solvated clusters of species before the reaction medium reaches the wafer. The photoresist is removed using the solvated reaction medium.Type: GrantFiled: October 23, 2008Date of Patent: October 25, 2011Assignee: Lam Research CorporationInventors: Robert P. Chebi, Jaroslaw W. Winniczek