Multilayer sulfur-resistant composite metal membranes and methods of making and repairing the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-071/02
B01D-053/22
B01D-067/00
B05D-003/02
B05D-003/10
출원번호
US-0183579
(2011-07-15)
등록번호
US-8778058
(2014-07-15)
발명자
/ 주소
Way, J. Douglas
Hatlevik, Oyvind
출원인 / 주소
Colorado School of Mines
대리인 / 주소
Sheridan Ross PC
인용정보
피인용 횟수 :
0인용 특허 :
59
초록▼
The invention relates to thin, hydrogen-permeable, sulfur-resistant membranes formed from multi-layers of palladium or palladium-alloy coatings on porous, ceramic or metal supports, methods of making these membranes, methods of repairing layers of these membranes and devices that incorporate these m
The invention relates to thin, hydrogen-permeable, sulfur-resistant membranes formed from multi-layers of palladium or palladium-alloy coatings on porous, ceramic or metal supports, methods of making these membranes, methods of repairing layers of these membranes and devices that incorporate these membranes.
대표청구항▼
1. A method of fabricating a sulfur-resistant composite metal membrane without tin or EDTA, comprising: seeding a substrate with palladium crystallites;decomposing an organic ligand present on the substrate;reducing the palladium crystallites to a metallic form;depositing a first film of palladium m
1. A method of fabricating a sulfur-resistant composite metal membrane without tin or EDTA, comprising: seeding a substrate with palladium crystallites;decomposing an organic ligand present on the substrate;reducing the palladium crystallites to a metallic form;depositing a first film of palladium metal on the substrate;depositing a second metal film on the first film, wherein a material of the second metal film is selected from the group consisting of gold, ruthenium, silver and copper;depositing additional layers of palladium metal and depositing additional layers of the second metal film to form a multilayer film of palladium and the second metal film; and,drying of the multilayer film at a temperature above about 130° C. to form a sulfur-resistant composite Pd-metal alloy multilayer film membrane. 2. The fabrication method of claim 1, wherein the sulfur-resistant composite Pd-metal alloy multilayer film has a total thickness between about 2 μm and about 10 μm. 3. The fabrication method of claim 1, wherein the substrate is a stainless steel support having a porous ZrO2 coating. 4. The fabrication method of claim 1, wherein at least one portion of the substrate has been sealed with a low temperature glaze. 5. The fabrication method of claim 1, wherein the seeding step comprises airbrushing a palladium salt solution onto a surface of the substrate. 6. The fabrication method of claim 5, wherein the palladium salt solution is a solution consisting of Palladium (II) Acetate and chloroform. 7. The fabrication method of claim 1, wherein the decomposition step comprises firing the substrate comprising the palladium crystallites at an elevated temperature sufficient to eliminate any organic ligand present. 8. The fabrication method of claim 1, wherein the reducing step comprises immersing the substrate in a reducing solution. 9. The fabrication method of claim 8, wherein the reducing solution is a solution consisting of water, NH3OH and hydrazine. 10. The fabrication method of claim 1, wherein the step of depositing the first film of palladium metal comprises pumping a palladium plating bath over a surface of the substrate. 11. The fabrication method of claim 10, wherein the palladium plating bath is a solution consisting of water, NH3OH, HCl, Palladium (II) chloride and hydrazine. 12. The fabrication method of claim 10, wherein the pumping continues until a palladium layer having a thickness of between about 0.7 μm and about 1.5 μm is formed. 13. The fabrication method of claim 1, wherein the step of depositing the second metal film comprises pumping a second metal plating bath over a surface of the substrate. 14. The fabrication method of claim 13, wherein the second metal is gold, and wherein a gold plating bath is a solution consisting of water, NaOH and gold (III) chloride. 15. The fabrication method of claim 13, wherein the pumping continues until the second metal film having a thickness of between about 0.2 μm and about 0.5 μm is formed. 16. The fabrication method of claim 1, further comprising depositing a third film of silver on the second metal film. 17. The fabrication method of claim 16, wherein the step of depositing a third film of silver comprises pumping a silver plating bath consisting of silver nitrate, NH3OH and water over a surface of the substrate. 18. The fabrication method of claim 1, wherein the first film of palladium metal and the second metal film are deposited sequentially to form the multilayer film having a total thickness of 3 μm to 10 μm. 19. The fabrication method of claim 1, further comprising: repairing the first film of palladium metal and the additional layers of palladium metal within the multilayer film. 20. A sulfur-resistant Pd-metal multilayer composite membrane comprising: a substrate;a multilayer film on the substrate;wherein the multilayer film comprises between three to seven layers of palladium metal and between three to seven layers of a second metal film, wherein a thickness of the multilayer film is between about 3 microns and about 10 microns, and wherein the multilayer film has minimal carbon impurities because EDTA or tin are not used during manufacturing of the multilayer film. 21. The membrane of claim 20, wherein a material of the second metal film is selected from the group consisting of ruthenium, silver, gold, platinum and copper.
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