Patents by Inventor Peter V. Bedworth
Peter V. Bedworth 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: 20170296979Abstract: Some embodiments comprise membranes comprising a first layer comprising a porous graphene-based material; a second layer comprising a porous graphene-based material; a channel positioned between the first layer and the second layer, wherein the channel has a tunable channel diameter; and at least one spacer substance positioned in the channel, wherein the spacer substance is responsive to the environmental stimulus. In some cases, the membranes have more than two layers of porous graphene-based material. Permeability of a membrane can be altered by exposing the membrane to an environmental stimulus. Membranes can be used in methods of water filtration, immune-isolation, timed drug release (e.g., sustained or delayed release), hemodialysis, or hemofiltration.Type: ApplicationFiled: April 14, 2016Publication date: October 19, 2017Applicant: Lockheed Martin CorporationInventors: Jacob Louis SWETT, Sarah M. Simon, Peter V. Bedworth
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Publication number: 20170296972Abstract: Two-dimensional materials having apertures in their basal planes are described, where at least a portion of the apertures are occluded with a selectively introduced occluding moiety. Occluding moieties that pass into apertures function to occlude apertures. Composite membranes are described having a porous substrate with a two-dimensional material disposed on the membrane and covering only a portion of the pores, wherein at least a portion of uncovered substrate pores are occluded. Pore occlusion can be achieved by introduction of an occluding particle optionally followed by chemical reaction, deformation or swelling of the particle to facilitate occlusion of pores. Two-dimensional materials covering substrate pores can be size-selected and optionally functionalized providing for selective permeability through composite membranes. Methods for occluding defects and apertures in two-dimensional materials and for selectively occluding pores in composite membranes are provided.Type: ApplicationFiled: April 14, 2016Publication date: October 19, 2017Applicant: Lockheed Martin CorporationInventors: Steven W. Sinton, Peter V. Bedworth, Sarah M. Simon, Jacob Louis Swett, Scott E. Heise
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Publication number: 20170298504Abstract: A method for transferring a graphene sheet from a copper substrate to a functional substrate includes forming the graphene sheet on the copper substrate using chemical vapor deposition, and irradiating the graphene sheet disposed on the copper substrate with a plurality of xenon ions using broad beam irradiation to form a prepared graphene sheet. The prepared graphene sheet is resistant to forming unintentional defects induced during transfer of the prepared graphene sheet to the functional substrate. The method further includes removing the copper substrate from the prepared graphene sheet using an etchant bath, floating the prepared graphene sheet in a floating bath, submerging the functional substrate in the floating bath, and decreasing a fluid level of the floating bath to lower the prepared graphene sheet onto the functional substrate.Type: ApplicationFiled: April 14, 2016Publication date: October 19, 2017Applicant: Lockheed Martin CorporationInventors: Scott E. Heise, Peter V. Bedworth, Jacob L. Swett, Steven W. Sinton
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Patent number: 9744617Abstract: Multi-layer sheets of graphene-based material having a plurality of pores extending therethrough are described herein. Methods for making the sheets include exposing a graphene-based material comprising multilayer graphene having from 5 to 20 layers of graphene to a particle beam having an ion energy of at least about 1500 eV to create damage tracks in the graphene sheets. The damage tracks in the graphene sheets are then exposed to a chemical etchant, such as an oxidant to define pores through the stacked graphene sheets. Production of the damage tracks and etching of the damage tracks can take place while the graphene is disposed on a substrate.Type: GrantFiled: August 5, 2015Date of Patent: August 29, 2017Assignee: LOCKHEED MARTIN CORPORATIONInventors: Peter V. Bedworth, Jacob L. Swett
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Publication number: 20170239623Abstract: A method of forming a filter with uniform pore sizes includes synthesizing a moiety so as to form a plurality of like platelets having a precisely sized pore extending therethrough, distributing the plurality of like platelets about a membrane having apertures therethrough, and bonding the plurality of platelets around the apertures to form precisely sized pores through the membrane. A filtration membrane is also disclosed which provides a porous membrane having a plurality of apertures therethrough, and a plurality of platelets, wherein each platelet has a pore therethrough. The platelets are positioned over or in the apertures.Type: ApplicationFiled: March 8, 2017Publication date: August 24, 2017Applicant: LOCKHEED MARTIN CORPORATIONInventors: Randall M. STOLTENBERG, Peter V. BEDWORTH
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Patent number: 9649718Abstract: Multi-layer sheets of graphene-based material having a plurality of pores extending therethrough are described herein. Methods for making the sheets include exposing a graphene-based material comprising multilayer graphene having from 5 to 20 layers of graphene to a particle beam having an ion energy of at least about 1500 eV to create damage tracks in the graphene sheets. The damage tracks in the graphene sheets are then exposed to a chemical etchant, such as an oxidant to define pores through the stacked graphene sheets. Production of the damage tracks and etching of the damage tracks can take place while the graphene is disposed on a substrate.Type: GrantFiled: August 5, 2015Date of Patent: May 16, 2017Assignee: LOCKHEED MARTIN CORPORATIONInventors: Peter V. Bedworth, Jacob L. Swett
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Patent number: 9610546Abstract: Perforated graphene sheets can be used in forming separation membranes. Separation membranes of the present disclosure, which can be used in gas separation processes in some embodiments, can include one or more layers of perforated graphene and one or more layers of another membrane material. Methods for separating a gas mixture can include contacting a gas mixture with the separation membranes, and transiting one or more of the gases through the perforated graphene so as to affect separation.Type: GrantFiled: September 16, 2015Date of Patent: April 4, 2017Assignee: LOCKHEED MARTIN CORPORATIONInventors: Steven W. Sinton, Peter V. Bedworth, Padraig Moloney, Jacob L. Swett
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Patent number: 9592475Abstract: A method of forming a filter with uniform pore sizes includes synthesizing a moiety so as to form a plurality of like platelets having a precisely sized pore extending therethrough, distributing the plurality of like platelets about a membrane having apertures therethrough, and bonding the plurality of platelets around the apertures to form precisely sized pores through the membrane. A filtration membrane is also disclosed which provides a porous membrane having a plurality of apertures therethrough, and a plurality of platelets, wherein each platelet has a pore therethrough. The platelets are positioned over or in the apertures.Type: GrantFiled: March 11, 2014Date of Patent: March 14, 2017Assignee: Lockheed Martin CorporationInventors: Randall M. Stoltenberg, Peter V. Bedworth
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Publication number: 20170043300Abstract: A method for making a nanoporous membrane is disclosed. The method provides a composite film comprising an atomically thin material layer and a polymer layer, and then bombarding the composite film with energetic particles to form a plurality of pores through at least the atomically thin material layer. The nanoporous membrane also has a atomically thin material layer with a plurality of apertures therethrough and a polymer film layer adjacent one side of the graphene layer. The polymer film layer has a plurality of enlarged pores therethrough, which are aligned with the plurality of apertures. All of the enlarged pores may be concentrically aligned with all the apertures. In one embodiment the atomically thin material layer is graphene.Type: ApplicationFiled: October 27, 2016Publication date: February 16, 2017Applicant: LOCKHEED MARTIN CORPORATIONInventors: Randall M. STOLTENBURG, Peter V. BEDWORTH, Scott E. HEISE, Steven W. SINTON
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Patent number: 9567224Abstract: Graphene sheets having a plurality of holes in their basal planes are described herein. Methods for making the graphene sheets can involve contacting graphene sheets with an activated gas that has contacted a helium or argon atmospheric pressure plasma. The size and/or number of holes introduced can be altered by changing the contact time, the stand-off distance, the activated gas concentration, and/or the plasma power. Polymer composites containing the perforated graphene sheets are also described.Type: GrantFiled: March 12, 2013Date of Patent: February 14, 2017Assignee: LOCKHEED MARTIN CORPORATIONInventor: Peter V. Bedworth
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Publication number: 20170036916Abstract: Multi-layer sheets of graphene-based material having a plurality of pores extending therethrough are described herein. Methods for making the sheets are also provided and include exposing a graphene-based material comprising multilayer graphene having from 2 to 10 layers of graphene to a particle beam comprising nanoparticles, the nanoparticles having an energy of at least 2 keV per nanoparticle.Type: ApplicationFiled: April 14, 2016Publication date: February 9, 2017Applicant: Lockheed Martin CorporationInventors: Peter V. BEDWORTH, Jacob L. SWETT
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Publication number: 20170040082Abstract: Sheets of graphene-based material comprising single layer graphene and suitable for formation of a plurality of perforations in the single layer graphene are provided. In an aspect, the sheets of graphene-based material are formed by chemical vapor deposition followed by one or more conditioning steps. In a further aspect, the sheets of graphene-based material include non-graphenic carbon-based material and may be characterized the amount, mobility and/or volatility of the non-graphenic carbon-based material.Type: ApplicationFiled: April 14, 2016Publication date: February 9, 2017Applicant: Lockheed Martin CorporationInventors: Jacob L. SWETT, Peter V. BEDWORTH, Scott E. HEISE, Steven W. SINTON, Sarah M. SIMON
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Publication number: 20170036174Abstract: A fluid deionizer includes at least one graphene sheet perforated with apertures dimensioned to allow a flow of fluid and to disallow at least one particular type of ion contained in the flow of fluid. A purge valve is placed in an open position so as to collect the at least one particular type of ion disallowed by the graphene sheet so as to clean off the at least one graphene sheet. Another embodiment provides a deionizer with graphene sheets in cylindrical form. A separation apparatus is also provided in a cross-flow arrangement where a pressurized source directs a medium along a path substantially parallel to at least one sheet of graphene from an inlet to an outlet. The medium flows through the plural perforated apertures while a remaining portion of the medium and the disallowed components in the medium flow out the outlet.Type: ApplicationFiled: October 24, 2016Publication date: February 9, 2017Applicant: LOCKHEED MARTIN CORPORATIONInventors: John B. STETSON, JR., Jonathan MERCURIO, Alan ROSENWINKEL, Peter V. BEDWORTH, Shawn P. FLEMING, Aaron L. WESTMAN
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Publication number: 20170035943Abstract: Two-dimensional materials can be formed into enclosures for various substances and a substrate layer can be provided on an outside and/or on an inside of the enclosure, wherein the enclosure is not cytotoxic. The enclosures can be exposed to an environment, such as a biological environment (in vivo or in vitro), where the fibrous layer can promote vascular ingrowth. One or more substances within the enclosure can be released into the environment, one or more selected substances from the environment can enter the enclosure, one or more selected substances from the environment can be prevented from entering the enclosure, one or more selected substances can be retained within the enclosure, or combinations thereof. The enclosure can, for example, allow a sense-response paradigm to be realized. The enclosure can, for example, provide immunoisolation for materials, such as living cells, retained therein.Type: ApplicationFiled: April 14, 2016Publication date: February 9, 2017Applicant: Lockheed Martin CorporationInventors: Sarah M. SIMON, Jacob L. Swett, Peter V. Bedworth, Scott E. Heise
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Publication number: 20170036911Abstract: Perforated sheets of graphene-based material having a plurality of perforations are provided. The perforated sheets may include perforated single layer graphene. The perforations may be located over greater than 10% of said area of said sheet of graphene-based material and the mean pore size of the perforations selected from the range of 0.3 nm to 1 ?m. Methods for making the perforated sheets are also provided.Type: ApplicationFiled: April 14, 2016Publication date: February 9, 2017Applicant: Lockheed Martin CorporationInventors: Jacob L. SWETT, Peter V. BEDWORTH, Scott E. HEISE, Steven W. SINTON, Sarah M. SIMON
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Patent number: 9505192Abstract: A method for making a nanoporous membrane is disclosed. The method provides a composite film comprising an atomically thin material layer and a polymer layer, and then bombarding the composite film with energetic particles to form a plurality of pores through at least the atomically thin material layer. The nanoporous membrane also has a atomically thin material layer with a plurality of apertures therethrough and a polymer film layer adjacent one side of the graphene layer. The polymer film layer has a plurality of enlarged pores therethrough, which are aligned with the plurality of apertures. All of the enlarged pores may be concentrically aligned with all the apertures. In one embodiment the atomically thin material layer is graphene.Type: GrantFiled: March 7, 2014Date of Patent: November 29, 2016Assignee: LOCKHEED MARTIN CORPORATIONInventors: Randall M. Stoltenberg, Peter V. Bedworth, Scott E. Heise, Steven W. Sinton
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Publication number: 20160339160Abstract: Various systems and methods relating to two-dimensional materials such as graphene. A membrane include a cross-linked graphene platelet polymer that includes a plurality of cross-linked graphene platelets. The cross-linked graphene platelets include a graphene portion and a cross-linking portion. The cross-linking portion contains a 4 to 10 atom link. The cross-linked graphene platelet polymer is produced by reaction of an epoxide functionalized graphene platelet and a (meth)acrylate or (meth)acrylamide functionalized cross-linker.Type: ApplicationFiled: April 14, 2016Publication date: November 24, 2016Applicant: Lockheed Martin CorporationInventors: Peter V. Bedworth, Steven Edward Bullock, Sarah M. Simon, Steven W. Sinton, John. B. Stetson, Jacob L. Swett, Scott E. Heise
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Patent number: 9480952Abstract: A method for forming a lattice with precisely sized holes includes disposing cutter molecules with species attached about the periphery of each molecule on to the lattice. The method continues with the species cutting molecular bonds of the lattice so as to form precisely sized holes in the lattice. The edges of the holes may then be functionalized.Type: GrantFiled: March 7, 2014Date of Patent: November 1, 2016Assignee: LOCKHEED MARTIN CORPORATIONInventors: Steven W. Sinton, Peter V. Bedworth
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Patent number: 9475709Abstract: A fluid deionizer includes at least one graphene sheet perforated with apertures dimensioned to allow a flow of fluid and to disallow at least one particular type of ion contained in the flow of fluid. A purge valve is placed in an open position so as to collect the at least one particular type of ion disallowed by the graphene sheet so as to clean off the at least one graphene sheet. Another embodiment provides a deionizer with graphene sheets in cylindrical form. A separation apparatus is also provided in a cross-flow arrangement where a pressurized source directs a medium along a path substantially parallel to at least one sheet of graphene from an inlet to an outlet. The medium flows through the plural perforated apertures while a remaining portion of the medium and the disallowed components in the medium flow out the outlet.Type: GrantFiled: December 19, 2012Date of Patent: October 25, 2016Assignee: LOCKHEED MARTIN CORPORATIONInventors: John B. Stetson, Jonathan Mercurio, Alan Rosenwinkel, Peter V. Bedworth, Shawn P. Fleming, Aaron L. Westman
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Publication number: 20160102402Abstract: Production of bulk quantities of graphene for commercial ventures has proven difficult due to scalability issues in certain instances. Plasma-enhanced chemical vapor deposition of graphene can address at least some of these issues. Methods for production of graphene by plasma-enhanced chemical vapor deposition can include: providing a metal substrate and a carbonaceous electrode, at least a portion of the metal substrate being located proximate to the carbonaceous electrode with a gap defined therebetween; applying a potential between the metal substrate and the carbonaceous electrode; exciting a plasma-forming gas in the gap between the metal substrate and the carbonaceous electrode in the presence of the applied potential, thereby forming a plasma; ablating a reactive carbon species from the carbonaceous electrode in the presence of the plasma; and growing graphene on the metal substrate from the reactive carbon species.Type: ApplicationFiled: December 16, 2015Publication date: April 14, 2016Inventors: Steven W. SINTON, Peter V. BEDWORTH