Solvent and acid stable membranes, methods of manufacture thereof and methods of use thereof inter alia for separating metal ions from liquid process streams
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-071/42
B01D-071/60
B01D-071/66
B01D-061/02
B01D-061/14
B01D-063/06
B01D-067/00
B01D-069/02
B01D-069/12
B01D-071/68
출원번호
US-0144116
(2010-01-13)
등록번호
US-9205383
(2015-12-08)
국제출원번호
PCT/IL2010/000032
(2010-01-13)
§371/§102 date
20120117
(20120117)
국제공개번호
WO2010/082194
(2010-07-22)
발명자
/ 주소
Perry, Mordechai
Ginzburg, Vera
Ginzburg, Boris
Lapido, Polina
출원인 / 주소
AMS TECHNOLOGIES INT. (2012) LTD
인용정보
피인용 횟수 :
0인용 특허 :
64
초록▼
Solvent and acid stable ultrafiltration and nanofiltration membranes including a non-cross-linked base polymer having reactive pendant moieties, the base polymer being modified by forming a cross-linked skin onto a surface thereof, the skin being formed by a cross-linking reaction of reactive pendan
Solvent and acid stable ultrafiltration and nanofiltration membranes including a non-cross-linked base polymer having reactive pendant moieties, the base polymer being modified by forming a cross-linked skin onto a surface thereof, the skin being formed by a cross-linking reaction of reactive pendant moieties on the surface with an oligomer or another polymer as well as methods of manufacture and use thereof, including, inter alia separating metal ions from liquid process streams.
대표청구항▼
1. A polymeric semipermeable membrane comprising a non-cross-linked base polymer having reactive pendant moieties, said base polymer being modified by forming a cross-linked skin onto a surface thereof, said skin being formed by a cross-linking reaction of reactive pendant moieties on said surface w
1. A polymeric semipermeable membrane comprising a non-cross-linked base polymer having reactive pendant moieties, said base polymer being modified by forming a cross-linked skin onto a surface thereof, said skin being formed by a cross-linking reaction of reactive pendant moieties on said surface with a cross-linking oligomer or another polymer thereby, said base polymer is covalently bonded to said oligomer or another polymer; wherein said base polymer is polyacrylonitrile (PAN) such that at least one portion of said cross-linked skin of said base polymer is covalently bonded to a nanofiltration layer by immersion of said cross-linked skin of said base polymer in polyethylenimine (PEI) and condensate solution comprising cyanuric chloride and sulfanilic acid thereby, said polymeric semipermeable membrane having acid and organic solvent stability; said nanofiltration layer comprises (i) at least one di-, tri- or tetra-halo substituted diazine or triazine-containing monomer, oligomer or polymer, and (ii) at least one multifunctional amine having a molecular weight in the range of 400 to 750,000. 2. The polymeric semipermeable membrane according to claim 1, wherein additionally comprising a woven or non woven substrate underlying said base polymer. 3. The polymeric semipermeable membrane according to claim 1, wherein said base polymer is selected from polyacrylonitrile and copolymers thereof. 4. The polymeric semipermeable membrane according to claim 1, wherein said another polymer is selected from polyethylenimine and polyvinyl alcohol. 5. The polymeric semipermeable membrane according to claim 1, wherein said polymeric semipermeable membrane is an ultrafiltration membrane or a microfiltration membrane. 6. A nanofiltration (NF) membrane having stability in acid and organic solvents, said NF containing a matrix that has been formed from a solution comprising PEI and a condensate comprising cyanuric chloride and sulfanilic acid; said matrix was dried at elevated temperature thereby, forming a matrix comprising (i) at least one di-, tri- or tetra-halo substituted diazine or triazine-containing monomer, oligomer or polymer, and (ii) at least one multifunctional amine having a molecular weight in the range of 400 to 750,000. 7. The NF membrane of claim 6, wherein said matrix has been formed on an underlying ultrafiltration or microfiltration membrane. 8. The NF membrane of claim 7, wherein the underlying membrane is a modified ultrafiltration membrane by forming a cross-linked skin onto a surface thereof; said modified ultrafiltration is covalently attached to a support material. 9. The NF membrane of claim 8, wherein the support material is a non-woven support material. 10. The NF membrane of claim 6, wherein said diazine or triazine-containing monomer or oligomer is selected from the group consisting of: wherein: R1 is independently selected at each occurrence from bromo, chloro, iodo, fluoro, —NHR5, —OR5 and SR5, wherein R5 is independently selected at each occurrence from H, optionally substituted alkyl and optionally substituted aryl;R2 is independently selected at each occurrence from bromo, chloro and fluoro;R3 is independently selected at each occurrence from bromo, chloro, fluoro, —NHR5, —OR5 and SR5, wherein R5 is independently selected at each occurrence from H, optionally substituted alkyl and optionally substituted aryl;R4 is selected from H, bromo, chloro, fluoro, —NHR5, —OR5 and SR5, wherein R5 is independently selected at each occurrence from H, optionally substituted alkyl and optionally substituted aryl; andR8 is independently at each occurrence —NH-A-NH—, wherein A is selected from C1-20 aliphatic moieties, C6-10 aromatic moieties, and combinations thereof; provided that at at least two occurrences, R1, R2, R3 and R4, taken together, are selected from bromo, chloro and fluoro, and further provided that when both R1 and R2 on a single ring are Cl, at least one of R3 and R4 is not Cl. 11. The NF membrane of claim 6, wherein said multifunctional amine has a molecular weight of in the range of 400 to 250,000. 12. The NF membrane of claim 6, wherein said matrix is formed by a process which comprises providing an asymmetric base ultrafiltration membrane which at one face thereof has pores of smaller diameter than at the opposite face; providing a solution containing at least one di-, tri- or tetra-halo substituted diazine or triazine-containing monomer, oligomer or polymer, at least one multifunctional amine having a molecular weight in the range of 400 to 750,000; and bringing the solution into contact with the face of the ultrafiltration membrane having smaller pores under superatmospheric pressure for a time sufficient to effect covalent bonding of the at least one di- or tri-halo substituted diazine or triazine-containing monomer, oligomer or polymer and the at least one multi-functional amine. 13. The NF membrane of claim 12, wherein said solution further comprises at least one supplemental cross-linker. 14. The NF membrane of claim 12, wherein prior to said contacting, said ultrafiltration membrane has been modified to facilitate covalent bonding to the surface thereof. 15. The NF membrane of claim 12, wherein, prior to said contacting, the ultrafiltration membrane was modified by forming a cross-linked ultrafiltration skin on the surface thereof, on which the matrix is then formed. 16. The NF membrane of claim 12, wherein the formation of the matrix further comprises, after said contacting, heating said ultrafiltration membrane. 17. The NF membrane of claim 12, wherein said multifunctional amine is selected from the group consisting of polyethylenemine, polyvinylamine, polyvinylanilines, polybenzylamines, polyvinylimidazolines, and amine-modified polyepihalohydrins. 18. The NF membrane of claim 13, wherein said supplemental cross-linker is selected from the group consisting of 2,4,6-trichloro-s-triazine, 4,6-dichloro-2-sodium p-sulfoanile-s-triazine (4,6-dichloro-2-p-anilinesulfonic acid sodium salt-s-triazine), 4,6-dichloro-2-diethanolamine-s-triazine and 4,6-dichloro-2-amino-s-triazine. 19. The NF membrane of claim 6, wherein said matrix has a density of from about 0.5 g per cm3 to about 2.0 g per cm3. 20. The NF membrane of claim 6, wherein the mass to area ratio of said matrix is from about 20 to about 200 mg/m2. 21. The polymeric semipermeable membrane according to claim 1, wherein said base polymer is preferably polyacrylonitrile. 22. The polymeric semipermeable membrane according to claim 1, characterized by having improved stability in an aggressive environment comprising at least one organic solvent. 23. The nanofiltration membrane according to claim 6, wherein after further exposure of said NF membrane to 75% sulfuric acid at 60° C. for 1000 hours, said NF membrane exhibits a glucose rejection of at least 95% at a flux of at least 10 gfd. 24. The nanofiltration membrane according to claim 6, wherein after further exposure of said NF membrane to 20% sulfuric acid solution at 90° C. for 180 hours, said membrane exhibits a glucose rejection of 98% at a flux of 950 liters/m*day. 25. A polymeric semipermeable membrane having solvents and acids stability, prepared by steps of: a. providing a UF base polymer comprising a cross linked polyacrylonitrile (PAN) containing active amino groups;b. providing a solution comprising polyethylenimine (PEI) and condensate; said condensate comprising cyanuric chloride and sulfanilic acid;c. immersing said PAN in said solution comprising PEI and condensate, thereby, covalently bonding a Nanofiltration (NF) layer with said UF base polymer; said NF comprising (i) at least one di-, tri- or tetra-halo substituted diazine or triazine-containing monomer, oligomer or polymer, and (ii) at least one multifunctional amine having a molecular weight in the range of 400 to 750,000;d. curing said membrane by drying at elevated temperature. 26. The polymeric semipermeable membrane claim 25, wherein said elevated temperature is in the range of 50-100° C. 27. The polymeric semipermeable membrane claim 25, wherein said polyethylenimine (PEI) solution has a concentration between 2%-10%.
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