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1.发明授权公开(公告)号:US09737879B1
公开(公告)日:2017-08-22
申请号:US15048535
申请日:2016-02-19
Inventor: Md Hasan Zahir , Alhooshani Khalid
IPC: B01J21/04 , B01J23/08 , B01J23/62 , B01J23/825 , B01J23/89 , B01J37/00 , B01J37/03 , B01J37/04 , B01J37/10 , B01J35/00 , B01J35/10 , B01D53/86
CPC classification number: B01J23/755 , B01D53/8628 , B01D53/9418 , B01D2255/20753 , B01D2255/209 , B01D2255/2092 , B01D2255/405 , B01D2255/9202 , B01D2255/9207 , B01J23/005 , B01J23/08 , B01J23/14 , B01J23/24 , B01J23/34 , B01J23/62 , B01J23/66 , B01J23/825 , B01J35/0006 , B01J35/008 , B01J35/1014 , B01J35/1019 , B01J35/1061 , B01J37/0045 , B01J37/0221 , B01J37/033 , B01J37/036 , B01J37/088 , B01J37/10 , B01J2523/00 , B01J2523/31 , B01J2523/32 , B01J2523/847
Abstract: The present disclosure relates to a process for producing a finely divided metal-doped aluminogallate nanocomposite comprising mixing a carrier solvent with a bulk metal-doped aluminogallate nanocomposite to form a bulk metal-doped aluminogallate slurry and atomizing the bulk metal-doped aluminogallate slurry using a low temperature collision to produce a finely divided metal-doped aluminogallate nanocomposite, the composition of a nickel-doped aluminogallate nanocomposite (GAN), and a method of NO decomposition using the nickel-doped aluminogallate nanocomposite.
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Patent Agency Ranking
公开(公告)号:US10105655B2
公开(公告)日:2018-10-23
申请号:US15889705
申请日:2018-02-06
Inventor: Md. Hasan Zahir , Alhooshani Khalid
IPC: B01D53/22 , B01D69/12 , B01D71/56 , B01D71/40 , B01D71/62 , B01D71/52 , B01D71/38 , B01D71/02 , B01D67/00 , B01D69/10 , B01D69/04
Abstract: A semi-porous composite membrane and a method of manufacturing the semi-porous composite membrane. The semi-porous composite membrane includes a base supporting substrate comprising α-Al2O3, an outer layer comprising silica, and an intermediate layer comprising crystalline fibers of boehmite, and at least one of a secondary metal oxide and a synthetic polymer, wherein the intermediate layer is disposed between the base supporting substrate and the outer layer. The crystalline fibers of boehmite are a length of 5-150 nm. The semi-porous composite membrane may be employed in membrane reactors.
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公开(公告)号:US20180161734A1
公开(公告)日:2018-06-14
申请号:US15889705
申请日:2018-02-06
Inventor: Md. Hasan ZAHIR , Alhooshani Khalid
IPC: B01D69/12 , B01D71/56 , B01D71/40 , B01D71/62 , B01D71/52 , B01D71/38 , B01D71/02 , B01D67/00 , B01D69/10 , B01D69/04 , B01D53/22
CPC classification number: B01D69/12 , B01D53/228 , B01D67/0093 , B01D69/04 , B01D69/10 , B01D71/025 , B01D71/027 , B01D71/38 , B01D71/40 , B01D71/52 , B01D71/56 , B01D71/62 , B01D2256/16 , B01D2256/18 , B01D2257/102 , B01D2257/108 , B01D2257/11 , B01D2257/502 , B01D2323/00 , B01D2323/08 , B01D2325/02 , B01D2325/20
Abstract: A semi-porous composite membrane and a method of manufacturing the semi-porous composite membrane. The semi-porous composite membrane includes a base supporting substrate comprising α-Al2O3, an outer layer comprising silica, and an intermediate layer comprising crystalline fibers of boehmite, and at least one of a secondary metal oxide and a synthetic polymer, wherein the intermediate layer is disposed between the base supporting substrate and the outer layer. The crystalline fibers of boehmite are a length of 5-150 nm. The semi-porous composite membrane may be employed in membrane reactors.
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公开(公告)号:US09943808B2
公开(公告)日:2018-04-17
申请号:US15176386
申请日:2016-06-08
Inventor: Md. Hasan Zahir , Alhooshani Khalid
IPC: B01D53/22 , B01D69/12 , B01D69/04 , B01D69/10 , B01D67/00 , B01D71/02 , B01D71/38 , B01D71/52 , B01D71/62 , B01D71/40 , B01D71/56
CPC classification number: B01D69/12 , B01D53/228 , B01D67/0093 , B01D69/04 , B01D69/10 , B01D71/025 , B01D71/027 , B01D71/38 , B01D71/40 , B01D71/52 , B01D71/56 , B01D71/62 , B01D2256/16 , B01D2256/18 , B01D2257/102 , B01D2257/108 , B01D2257/11 , B01D2257/502 , B01D2323/00 , B01D2323/08 , B01D2325/02 , B01D2325/20
Abstract: A semi-porous composite membrane and a method of manufacturing the semi-porous composite membrane. The semi-porous composite membrane includes a base supporting substrate comprising α-Al2O3, an outer layer comprising silica, and an intermediate layer comprising crystalline fibers of boehmite, and at least one of a secondary metal oxide and a synthetic polymer, wherein the intermediate layer is disposed between the base supporting substrate and the outer layer. The crystalline fibers of boehmite are a length of 5-150 nm. The semi-porous composite membrane may be employed in membrane reactors.
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公开(公告)号:US09821295B2
公开(公告)日:2017-11-21
申请号:US15634297
申请日:2017-06-27
Inventor: Md Hasan Zahir , Alhooshani Khalid
IPC: B01J21/04 , B01J23/08 , B01J23/62 , B01J23/825 , B01J23/89 , B01J37/00 , B01J37/03 , B01J37/04 , B01J37/10 , B01J35/00 , B01J35/10 , B01J23/755 , B01J23/00 , B01J37/08 , B01J37/02 , B01D53/86
CPC classification number: B01J23/755 , B01D53/8628 , B01D53/9418 , B01D2255/20753 , B01D2255/209 , B01D2255/2092 , B01D2255/405 , B01D2255/9202 , B01D2255/9207 , B01J23/005 , B01J23/08 , B01J23/14 , B01J23/24 , B01J23/34 , B01J23/62 , B01J23/66 , B01J23/825 , B01J35/0006 , B01J35/008 , B01J35/1014 , B01J35/1019 , B01J35/1061 , B01J37/0045 , B01J37/0221 , B01J37/033 , B01J37/036 , B01J37/088 , B01J37/10 , B01J2523/00 , B01J2523/31 , B01J2523/32 , B01J2523/847
Abstract: The present disclosure relates to a process for producing a finely divided metal-doped aluminogallate nanocomposite comprising mixing a carrier solvent with a bulk metal-doped aluminogallate nanocomposite to form a bulk metal-doped aluminogallate slurry and atomizing the bulk metal-doped aluminogallate slurry using a low temperature collision to produce a finely divided metal-doped aluminogallate nanocomposite, the composition of a nickel-doped aluminogallate nanocomposite (GAN), and a method of NO decomposition using the nickel-doped aluminogallate nanocomposite.
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公开(公告)号:US20170291165A1
公开(公告)日:2017-10-12
申请号:US15634297
申请日:2017-06-27
Inventor: Md Hasan Zahir , Alhooshani Khalid
IPC: B01J23/755 , B01J23/00 , B01J35/00 , B01J35/10 , B01D53/86 , B01J37/03 , B01J37/04 , B01J37/08 , B01J37/02 , B01J23/08 , B01J37/10
CPC classification number: B01J23/755 , B01D53/8628 , B01D53/9418 , B01D2255/20753 , B01D2255/209 , B01D2255/2092 , B01D2255/405 , B01D2255/9202 , B01D2255/9207 , B01J23/005 , B01J23/08 , B01J23/14 , B01J23/24 , B01J23/34 , B01J23/62 , B01J23/66 , B01J23/825 , B01J35/0006 , B01J35/008 , B01J35/1014 , B01J35/1019 , B01J35/1061 , B01J37/0045 , B01J37/0221 , B01J37/033 , B01J37/036 , B01J37/088 , B01J37/10 , B01J2523/00 , B01J2523/31 , B01J2523/32 , B01J2523/847
Abstract: The present disclosure relates to a process for producing a finely divided metal-doped aluminogallate nanocomposite comprising mixing a carrier solvent with a bulk metal-doped aluminogallate nanocomposite to form a bulk metal-doped aluminogallate slurry and atomizing the bulk metal-doped aluminogallate slurry using a low temperature collision to produce a finely divided metal-doped aluminogallate nanocomposite, the composition of a nickel-doped aluminogallate nanocomposite (GAN), and a method of NO decomposition using the nickel-doped aluminogallate nanocomposite.
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