WO1994017125A1 - Structured copolymers used as absorbents, gels and carriers of metal ions - Google Patents
Structured copolymers used as absorbents, gels and carriers of metal ions Download PDFInfo
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- WO1994017125A1 WO1994017125A1 PCT/US1994/000801 US9400801W WO9417125A1 WO 1994017125 A1 WO1994017125 A1 WO 1994017125A1 US 9400801 W US9400801 W US 9400801W WO 9417125 A1 WO9417125 A1 WO 9417125A1
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Definitions
- This invention concerns structured copolymers and their use as absorbents, gels and carriers of metal ions
- Unique polymeric reagents are used which are capable of extracting metal ions from aqueous solutions into non-aqueous solutions containing structured copolymers
- these structured copolymers containing the metals are capable of being dispersed into another polymeric matrix
- the present invention concerns a novel class of dense star polymers having a highly branched interior structure comprised of monome ⁇ c units having the ability to associate or chelate with metal ions and an exterior comprised of a different monome ⁇ c unit having the ability to provide a hydrophobic outer shell
- the dense star polymers having a highly branched interior structure comprised of monome ⁇ c units that are hydrophilic and an exterior comprised of different monome ⁇ c units having the ability to provide a hydrophobic outer shell, display a unique physical feature of forming a homogeneous gel
- Dense star polymers or dendrimers exhibit molecular architecture characterized by regular dendritic branching with radial symmetry These radially symmetrical molecules are referred to as possessing "starburst topology" These polymers are made in a manner which can provide concentric dendritic tiers around an initiator core
- the starburst topology is achieved by the ordered assembly of repeating units, usually organic groups, in concentric, dendritic tiers around an initiator core, this is accomplished by introducing multiplicity and self-replication (within each tier) in a geometrically progressive fashion through a number of molecular generations
- the resulting highly functionalized molecules have been termed "dendrimers” in deference to their branched (tree-like) structure as well as their oligome ⁇ c nature
- dense star polymers have been previously described as a solvent soluble, radially symmetrical dense star polymer wherein the dense star polymer has at least one core branch emanating from a core, said branch having at least one terminal group provided that (1 ) the ratio of terminal groups to the core branches is two or greater, (2) the density of terminal groups per unit volume in the polymer is at least 1 5 times that of an extended conventional star polymer having similar core and monome ⁇ c moieties and a comparable molecular weight and number of core branches, each of such branches of the extended conventional star polymer bearing only one terminal group, and (3) the dense star polymer has a molecular volume that is no more than about 60 to 80 percent of the molecular volume of said extended conventional star polymer as determined by dimensional studies using scaled Corey-Pauling molecular models, and has regular dendritic branching (See, for example, the descriptions of dense star polymers in U S Patents 4,507,466, 4,558,120, 4,568,737; 4,587,329, and 4,694,06
- modified or structured dense star polymers are particularly effective in extracting metal ions from aqueous solutions into non-aqueous solutions containing these structured copolymers
- these structured copolymers containing the metals are capable of being dispersed into another polymeric matrix
- the present invention concerns these modified dense star polymers or dendrimers having a highly branched interior structure comprised of monome ⁇ c units having associated or chelated at least one metal ion and an exterior structure comprised of a different monome ⁇ c unit providing a hydrophobic outer shell Similar hydrophobic dense star polymers and dendrimers are also included which lack the presence of a metal ion
- the present invention includes a polymer blend comprising a modified dense star polymer associated with a metal ion and a polymer matrix
- the use of the present modified dense star polymer or dendrimer in the formation of a gel in a two phase system has use in an oil/water emulsion system for use as a surfactant
- the dense star polymers which comprise the highly branched interior structure of the modified dense star polymers of the present invention must have an affinity to associate, complex or chelate with metal ions Such affinities are usually achieved by incorporating a plurality of oxygen or nitrogen atoms, which readily complex with metal ions, within the highly branched structure of the dense star polymer which serves as the core
- Such dendrimers are known compounds and can be prepared according to the procedures described, for example, in U S Patents 4,568,737 and 4,587,329 and in European Patent Application Publication 0 271 180 and WO 93/14147
- Preferred dense star polymers for use in the present invention are amine- terminated poly(am ⁇ doam ⁇ ne) dendrimers, hydroxy-terminated poly(ether) dendrimers, amine
- hydrophobic groups means groups lacking an affinity for, repelling, or failing to adsorb or absorb water [" Dictionary of Scientific and Technical Terms", Ed Sybil P Parker, 4th ed , (1989)]
- hydrophobic groups on the surface of the dense star polymer must be soluble in, mis ⁇ ble in or compatible with the matrix polymer used to make the blends, and the interior of the hydrophobic dense star polymer must be substantially less soluble in, miscible in or compatible with the matrix polymer.
- Microx polymers means polymers that are soluble in, miscible in or compatible with the hydrophobic groups on the surface of the hydrophobic dense star polymer.
- suitable matrix polymers used in this invention are thermoplastic polymers, such as polyethylene, polypropylene, polystyrene, polyacrylate, polymethyl methacrylate, polyisobutylene, and polymethylpentene.
- Such hydrophobic groups usually include a reactive functional group such as an acid chloride, ester, carboxylic acid, haiide (i.e., chloride or bromide), acrylate, or epoxy ether.
- a reactive functional group such as an acid chloride, ester, carboxylic acid, haiide (i.e., chloride or bromide), acrylate, or epoxy ether.
- Preferred hydrophobic groups are hydrocarbon groups of from 4 to 40 carbon atoms inclusive, preferably from 4 to 24. These hydrophobic groups may also contain oxygen, nitrogen or sulfur atoms, e.g. epoxy, hydroxy, ester or ether groups. However, all substituent groups must be sterically compatible with each other.
- sterically compatible is employed to designate substituent groups which are not affected by steric hindrance as this term is defined in "The Condensed Chemical Dictionary", 7th edition, Reinhold Publishing Co., N.Y. page 893 (1966) which definition is as follows: "steric hindrance. A characteristic of molecular structure in which the molecules have a spatial arrangement of their atoms such that a given reaction with another molecule is prevented or retarded in rate.”
- Sterically compatible may be further defined as reacting compounds having substituents whose physical bulk does not require confinement within volumes insufficient for the exercise of their normal behavior as discussed in Organic Chemistry of D. J. Cram and G. Hammond, 2nd edition, McGraw-Hill Book Company, N Y., page 215 (1964).
- Such hydrocarbon groups include linear alkyl groups having from 4 to 40 carbon atoms optionally substituted independently with hydroxy, with carboxyl, with Cj-Cin alkyl , with C Cio alkoxy, with C 1 -C 1 0 alkoxycarbonyl, with phenyl or phenyl subst'tuted with from 1 to 5 groups of C 1 -C5 alkyl or C 1 -C5 alkoxy groups, or with phenoxy or phenoxy substituted with, C C5 alkyl or Ci-Cs alkoxy groups.
- hydrocarbon groups examples include hexyl, octadecyl, ethyl hexyl, tolyldecyl group, anisyldodecyl group, 3-phenoxy-2-hydroxy-1-propyl, (4- methyl)phenoxy-2-hydroxy-1-propyl, (4-methoxy)phenoxy-2-hydroxy-1-propyl, telechelic polymers (which are polymers having a single functional group at their end as described in Telechelic Polvmers.Svnthesis and Applications, ed.
- the modified dendrimers of the present invention are prepared by capping the dense star polymers which comprise the highly branched interior structure with a hydrophobic tail
- the capping reaction may be performed in any conventional manner suitable forthe reacti e groups present. Some examples of these reactions can de found in Advanced Organic Chemistry, 3rd ed , John Wiley & Sons, NY (1985), by Jerry March, and US Patent 4,558,120 at column 12
- this modification can be accomplished by reacting the amine- terminated or hydroxy-termmated dendrimers, which serve as the interior structure, with an appropriate hydrocarbon chloride or bromide, or (Ce-C ⁇ 4 aryl)G-C ⁇ ⁇ alkyl chloride or bromide, or with an appropriate ⁇ , ⁇ -epox ⁇ de
- Reactions with either the ha des or epoxides are preferably conducted by contacting the amine-terminated or hydroxy-termmated substrates with at least one equivalent of hahde or epoxide for each available terminal amine or hydroxy group in the presence of an inert solvent under basic or neutral conditions
- the reaction can be conducted under temperatures ranging from about 20 to about 150°C
- Preferred hydrocarbon hahdes are primary alkyl chlorides and bromides which, when subjected to conditions favoring bimolecular nucleophilic substitution reactions, provide amines and ethers capped with primary hydrocarbon tails
- Preferred epoxides are those
- the hydrophobic modified dense star polymer or dendrimer may be admix the appropriate hydrophobic modified dense star polymer or dendrimer directly with the polymer phase utilizing known melt blending processes, i.e blending in a Brabender mixer
- the overall solubility of the dendrimer can be significantly tailored to fit a specific application
- these dendrimers exhibit "dense packing" where the surface of the dendrimer contains sufficient terminal moieties such that the dendrimer surface becomes sterically congested and encloses void spaces within the interior of the dendrimer This congestion can provide a molecular level barrier which can be used to control diffusion of materials into or out of the interior of the dendrimer
- thermodynamics of blends of high molecular weight materials do not have large enough entropy of mixing contributions to stabilize the solutions, unless the polymer components are very close in their surface energy
- the stability of the dispersion of one polymer within another is dominated by the interfacial energies between the microscopic domains of the two components
- a blend of the two homopolymers will tend to separate into two distinct phases in order to minimize the interfacial area and total energy of the system
- a stable blend can be prepared if one of the components is a block copolymer composed of segments with much different solubility parameters See, for example.
- the metal ions that are extracted by the modified dense star polymers of this invention must be capable of association with the highly branched interior structure of the modified dense star polymer.
- Suitable examples of such metal ions are salts of: transition metals of Groups VIA (Cr), VIIA (Mn), VIIIA (Fe), IB (Cu), and MB (Zn); alkali metals of Group IA (Li); alkaline earth metals of Group IIA (Be); lanthanides metals of Group IMA (La); Y; Ge; Sn; and Pb.
- the term "associated with” includes attached to or linked to or encapsulated within the interior of the modified dense star polymer by means of covalent bonding, hydrogen bonding, adsorption, absorption, chelation, metallic bonding, van der Waals forces, ionic bonding, coulombic forces, hydrophobic or hydrophilic forces, or any combination thereof.
- the use of the dense star dendrimers of this invention as surfactants and as gels can be illustrated by their physical characteristics.
- the acylated dense star dendrimers are usually insoluble in toluene and water, but demonstrate a unique physical feature when dispersed in a two phase aqueous/organic medium. The result is a homogeneous opaque white gel. This gel forms as the amide is produced in the two phase reaction ( ⁇ 1 minute) and becomes thick and non-flowing. Filtration of this gel (5 wt % product in 1 : 1 , H 2 0:toluene) removes some of the solvent and gives a stiff moist solid (10-20wt % product). Rotary evaporation gives a powder which still contains 50% solvents, and drying in a vacuum oven produces dried material.
- the gel can also be diluted beyond the original 5 wt % in H 2 0/toluene. Dilution as low as 1 % gives a thickened white gel . This thickening is broken down by agitation, but reforms in 30 min to 1 hour. Further dilution with water (> e., mixed in a biender) gives a milky white liquid, while addition of toluene merely results in separation of a clear toluene layer. Hence the capacity for water (in a water/toluene mixture) is unlimited, while that capacity for toluene (in H 2 0/toluene) is limited to a 25-50 fold weight excess of toluene over dendrimer. When toluene is evaporated from the milky white dilutions in water, the dendrimer precipitates out and leaves a clear aqueous phase.
- the thickening phenomenon results due to a three-dimensional hydrophobic network corrected by domains of 5 toluene and held in a continuous phase of water.
- This hydrophobic association is also seen when small amounts of dense star dendrimer are dissolved in aqueous solutions of a nonionic surfactant, C8H 17 0(CH2CH2 ⁇ )5H. As the cloudy solution is heated, the surfactant loses its waters of solvation and hydrophobic association takes over to give a flocculent precipitate.
- the ability to extract metals from aqueous solutions is part of the present invention.
- the present invention concerns a process for extracting these metal ions from aqueous solutions by intimately contacting the aqueous solution containing metal ions with a solution of a modified dense star polymer, having a highly branched interior structure comprised of monomeric units having the ability to associate or chelate with metal ions and an exterior structure comprised of a different monomeric unit having the ability to provide a hydrophobic outer shell, in a water-immiscible solvent, and separating the organic phase from the aqueous solution
- the modified dense star polymer containing the metal ions is then blended with another polymer to disperse the metal ions into the continuous phase matrix
- the modified dendrimer of Example 1 (0.6 g) was dissolved in chloroform. A solution of 0.12 g of copper sulfate in 10 mL of water was added and the mixture stirred at room temperature, overnight. The layers were separated and the aqueous layer extracted with chloroform. The combined chloroform solutions were dried with sodium sulfate and filtered Distillation of the solvent in vacuo gave 0.6 g of blue powder.
- the copper-containing modified dendrimer of Example 2 was added to 20 g of styrene and the mixture was sonicated intermittently (total time 10 hr) over 4 days to give a 15 homogeneous solution.
- Azofa/sisobutyronitrile (0.15 g) was added and the mixture heated in an oil bath at 100°C for 16 hr.
- the resultant polymer was a dark transparent blue, except for a small portion on the bottom of the bottle that was a darker opaque blue.
- Example 4 Blend of Modified PAMAM Dendrimers with Poly(methyl methacrylate) A: f-Butyl Glycidyl Ether Modification 20
- TBGE f-butyl glycidyl ether
- the solution was agitated on an orbital mixer for 6 days, then the solvent and excess TBGE were removed by distillation in vacua, giving 1.0 g of hydrophobic dendrimer which is characterized by: 13C NMR (CDCI 3 ), TMS as internal standard 25 ppm 173.0, 27.6, broad peaks 65, 64, 36, 34.
- the epoxyoctane hydrophobic dense star polymer described above (0.3 g) was dissolved in 60 g of methyl methacrylate. To this solution was added 0.4 g of azobisisobutyronitrile and the resulting solution was heated at 60°C for 16 hrs. The resulting polymer was ground and compression molded to give transparent plaques.
- the first generation dendrimer from Part A 7.5 g (63 meq), was reacted with trimethylacetyl chloride (8.1 mL, 65 mmole) as described for Part A above.
- the reaction was neutralized with 10% NaOH (28 mL, 70 mmole), then stirred for two hours and worked up as 25 described for Part A above.
- the first generation dendrimer from Part A 6.8 g (57 meq), was dissolved in 40 mL of water and stirred with 50 mL of toluene at 0°C.
- Benzoyl chloride (6.9 mL, 59 meq) and 10%
- the first generation dendrimer from Part A 3.3 g (28 meq), was dissolved in 25 mL ofwater in a glass jar. To it was added hexanoyl chloride (3.9 mL, 28 mmole) in 15 mL of toluene and 10% NaOH (1 1.0 mL, 28 meq). Shaking produced a white gel. The solid was filtered and washed twice with water and with toluene. Drying provided 3.5 g (58%) of the 5 product as a white solid, mp 192-5 C C. The product was relatively insoluble in water, diethyl ether and toluene, but fairly soluble in methanol.
- the first generation dendrimer from Part A 3.3 g (28 meq) was reacted with octanoyl chloride (4.7 mL, 28 meq) according to the procedure of Part D above.
- the product 5 was a white solid, 6.2 g (91 %), mp 194-8°C.
- the product was relatively insoluble in water, diethyl ether and toluene, but fairly soluble in methanol.
- the first generation dendrimer from Part A 9.30 g (78 meq), was dissolved in 50 mL of water with 50 mL of toluene in a mechanically stirred three-neck flask. To it was added dropwise dodecanoyl chloride (18.0 mL, 78 meq) in 30 mL of toluene. During this addition
- the white gelatinous product was stirred for an additional 1.5 hours then filtered and rinsed twice each with toluene, water and methanol. The resulting white solid (approx.
- the first generation dendrimer from Part A 10.1 g (84.3 meq), was dissolved in 100 mL of water and added to a 500 mL separatory funnel containing stearoyi chloride (30.3 g,
- the product was relatively insoluble in water, diethyl ether, methanol and toluene.
- the branched tetraamine, N(CH 2 CH 2 H2)3 , 2.0 g, (41 meq) was dissolved in 20 mL of water and placed in a 125 mL separatory funnel with benzoyl chloride (4.8 mL, 41 meq) in 20 mL of toiuene. Tothe mixture was added 10% NaOH (16.5 mL, 41 meq) and the mixture was shaken for 15 minutes.
- the first generation amidoamine dendrimer from of ethylenediamine (EDA);
- the product was relatively insoluble in water, diethyl ether, methanol and toluene.
- the dense star dendrimer (NCH 2 CH 2 N) — (NH 2 ) 32 , (4.0G/EDA), 3.06 g
- the dense star dendrimer (NCH 2 CH 2 N) (NH 2 ) 32 , (4.0G/EDA), 3.06 g
Abstract
Description
Claims
Priority Applications (9)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA002154469A CA2154469C (en) | 1993-01-22 | 1994-01-21 | Structured copolymers and their uses as absorbents, gels and carriers of metal ions |
AU62316/94A AU683875B2 (en) | 1993-01-22 | 1994-01-21 | Structured copolymers used as absorbents, gels and carriers of metal ions |
HU9502024A HU220996B1 (en) | 1993-01-22 | 1994-01-21 | Structured copolymers, polymer blend and dispersion process |
AT94909483T ATE221905T1 (en) | 1993-01-22 | 1994-01-21 | STRUCTURED COPOLYMERS AS METAL ION SUPPORTS |
KR1019950702993A KR100295923B1 (en) | 1993-01-22 | 1994-01-21 | Absorbing agents for metal ions, gelling agents and copolymers having a specific structure used as a carrier |
JP6517230A JPH08505899A (en) | 1993-01-22 | 1994-01-21 | Structured copolymers for use as absorbents, gels and metal ion carriers |
EP94909483A EP0680495B1 (en) | 1993-01-22 | 1994-01-21 | Structured copolymers used as carriers of metal ions |
DE69431150T DE69431150T2 (en) | 1993-01-22 | 1994-01-21 | STRUCTURED COPOLYMERS AS METAL IONS |
FI953530A FI109910B (en) | 1993-01-22 | 1995-07-21 | Structured copolymers for use as absorbents, gels and metal ion carriers |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US152,335 | 1988-02-04 | ||
US827593A | 1993-01-22 | 1993-01-22 | |
US08/152,335 US5560929A (en) | 1986-08-18 | 1993-11-12 | Structured copolymers and their use as absorbents, gels and carriers of metal ions |
US008,275 | 1993-11-12 |
Publications (1)
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WO1994017125A1 true WO1994017125A1 (en) | 1994-08-04 |
Family
ID=26678019
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PCT/US1994/000801 WO1994017125A1 (en) | 1993-01-22 | 1994-01-21 | Structured copolymers used as absorbents, gels and carriers of metal ions |
Country Status (14)
Country | Link |
---|---|
US (1) | US5560929A (en) |
EP (1) | EP0680495B1 (en) |
JP (1) | JPH08505899A (en) |
KR (1) | KR100295923B1 (en) |
CN (2) | CN1038842C (en) |
AT (1) | ATE221905T1 (en) |
AU (1) | AU683875B2 (en) |
CA (1) | CA2154469C (en) |
CZ (1) | CZ291389B6 (en) |
DE (1) | DE69431150T2 (en) |
FI (1) | FI109910B (en) |
HU (1) | HU220996B1 (en) |
TW (1) | TW337531B (en) |
WO (1) | WO1994017125A1 (en) |
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Also Published As
Publication number | Publication date |
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CA2154469C (en) | 2004-10-05 |
DE69431150D1 (en) | 2002-09-12 |
EP0680495B1 (en) | 2002-08-07 |
FI953530A0 (en) | 1995-07-21 |
AU6231694A (en) | 1994-08-15 |
TW337531B (en) | 1998-08-01 |
KR100295923B1 (en) | 2001-10-24 |
FI109910B (en) | 2002-10-31 |
HU9502024D0 (en) | 1995-09-28 |
EP0680495A1 (en) | 1995-11-08 |
KR960700292A (en) | 1996-01-19 |
CZ190595A3 (en) | 1995-12-13 |
CA2154469A1 (en) | 1994-08-04 |
DE69431150T2 (en) | 2003-05-22 |
CN1089775C (en) | 2002-08-28 |
AU683875B2 (en) | 1997-11-27 |
HUT73151A (en) | 1996-06-28 |
HU220996B1 (en) | 2002-07-29 |
CN1038842C (en) | 1998-06-24 |
JPH08505899A (en) | 1996-06-25 |
ATE221905T1 (en) | 2002-08-15 |
FI953530A (en) | 1995-07-21 |
US5560929A (en) | 1996-10-01 |
CZ291389B6 (en) | 2003-02-12 |
CN1174852A (en) | 1998-03-04 |
CN1118168A (en) | 1996-03-06 |
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