Methods for manufacturing architectural constructs
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C23C-016/00
C02F-001/28
출원번호
US-0584644
(2012-08-13)
등록번호
US-8828491
(2014-09-09)
발명자
/ 주소
McAlister, Roy Edward
출원인 / 주소
McAlister Technologies, LLC
대리인 / 주소
Perkins Coie LLP
인용정보
피인용 횟수 :
5인용 특허 :
19
초록▼
An architectural construct is a synthetic material that includes a matrix characterization of different crystals engineered to exhibit certain properties. An architectural construct can be fabricated by a process involving layer deposition, formation, exfoliation and spacing. In one aspect, purified
An architectural construct is a synthetic material that includes a matrix characterization of different crystals engineered to exhibit certain properties. An architectural construct can be fabricated by a process involving layer deposition, formation, exfoliation and spacing. In one aspect, purified methane can be dehydrogenated onto a substrate by applying heat through the substrate. Deposited carbon can form a plurality of layers of a matrix characterization of crystallized carbon through self-organization. The layers can be exfoliated and spaced to configure parallel orientation at a desired spacing and thickness using selected precursors and applying heat, pressure, or both. The desired architectural construct can further be stabilized and doped to exhibit desired properties.
대표청구항▼
1. A process comprising: depositing boron nitride onto a substrate;applying heat through the substrate to form a plurality of layers comprising a matrix characterization of crystals of boron nitride, wherein the layers are formed through self-organization of the boron nitride into a crystalline stru
1. A process comprising: depositing boron nitride onto a substrate;applying heat through the substrate to form a plurality of layers comprising a matrix characterization of crystals of boron nitride, wherein the layers are formed through self-organization of the boron nitride into a crystalline structure of the matrix characterization;one or more layers from the plurality of layers to form an exfoliated layer, wherein the exfoliated layer is substantially parallel with any other exfoliated layer; andadding at least one precursor into the matrix characterization of crystals of boron nitride, thereby producing an architectural construct. 2. A process of claim 1, wherein the exfoliating the one or more layers comprises impregnating the plurality of layers with a fluid to create a pressure. 3. A process of claim 2, wherein the fluid comprises a gas including at least one of a paraffin and nitrogen. 4. A process of claim 1, wherein the architectural construct includes two or more exfoliated layers, further comprising adding at least one precursor between the exfoliated layers. 5. A process of claim 4, wherein the precursor comprises at least one of titanium, titanium hydride, iron, iron pentacarbonyl, nickel, cobalt, boron, nitrogen, carbon, hydrocarbon, silicon, and carbide gas. 6. A process of claim 1, wherein the adding at least one precursor into the matrix characterization of crystals of boron nitride further comprises applying at least one of heat or pressure. 7. A process of claim 1, further comprising stabilizing the exfoliated layers with a stabilizer. 8. A process of claim 7, wherein the stabilizer comprises at least one of a boron nitride fiber wrap and dopant atom. 9. A process of claim 1, wherein the adding the at least one precursor into the matrix characterization is at a selected location or region within the crystalline structure by applying energy at the particular frequency including using at least one of a laser, electron beam, or inductive or focused light. 10. A process of claim 1, wherein the precursor comprises at least one of titanium, titanium hydride, iron, iron pentacarbonyl, nickel, cobalt, boron, nitrogen, carbon, hydrocarbon, silicon, and carbide gas. 11. A process of claim 1, wherein the precursor includes a trace crystal modifier including at least one of neon, argon, or helium. 12. A process comprising: depositing boron nitride onto a substrate;applying heat through the substrate to form a plurality of layers comprising a matrix characterization of crystals of boron nitride, wherein the layers are formed through self-organization of the boron nitride into a crystalline structure of the matrix characterization;exfoliating one or more layers from the plurality of layers to form a first exfoliated layer and exfoliating another one or more layers from the plurality of layers to form a second exfoliated layer, wherein an exfoliated layer is substantially parallel with any other exfoliated layer; andadding at least one precursor at a selected location or region (i) within the crystalline structure of the matrix characterization, (ii) between the first and second exfoliated layers, or (iii) within the crystalline structure of the matrix characterization and between the first and second exfoliated layers, by applying energy at a particular frequency, thereby producing an architectural construct. 13. A process of claim 12, wherein the exfoliating the one or more layers comprises impregnating the self-organized plurality of layers with a fluid to create a pressure. 14. A process of claim 12, wherein the adding at least one precursor further comprises applying at least one of heat or pressure. 15. A process of claim 12, further comprising stabilizing the exfoliated layers with a stabilizer. 16. A process of claim 12, wherein the applying energy at the particular frequency includes using at least one of a laser, electron beam, or inductive or focused light.
Lyons James E. (Wallingford PA) Durante Vincent A. (West Chester PA) Walker Darrell W. (Visalia CA), Chromia on metal oxide catalysts for the oxidation of methane to methanol.
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