Claims
- 1. A chromatography column comprising a column having a stationary phase and a mobile phase, wherein said stationary phase comprises carbon-clad metal oxide particles having attached at least one organic group.
- 2. The chromatography column of claim 1, wherein said organic group comprises at least one aromatic group directly attached onto said carbon-clad metal oxide particles.
- 3. The chromatography column of claim 1, wherein said organic group comprises at least one alkyl group directly attached onto the carbon-clad metal oxide particles.
- 4. The chromatography column of claim 1, further comprising a substance comprising chemical species to be separated in said column.
- 5. A separation device comprising a mobile phase and a stationary phase, wherein said stationary phase comprises carbon-clad metal oxide particles having attached at least one organic group.
- 6. A method for conducting separation of chemical species from a substance, wherein said method comprises passing said substance through a system containing a mobile phase and a stationary phase, wherein said stationary phase comprises carbon-clad metal oxide particles having attached at least one organic group.
- 7. The method of claim 6, wherein said separation is liquid chromatography.
- 8. The method of claim 6, wherein said separation is size exclusion chromatography.
- 9. The method of claim 6, wherein said separation is chromatography by affinity wherein the chemical species in the substance have different affinities for the stationary phase.
- 10. The method of claim 6, wherein said separation is an adsorption-desorption chromatography or supercritical fluid chromatography.
- 11. The method of claim 6, wherein said separation is electrophoresis or electrochromatography.
- 12. A method for conducting separation by electrophoresis comprising a stationary phase and a mobile phase located between a positive electrode and a negative electrode, passing a current between said electrodes, and introducing a substance containing different chemical species to be separated, wherein said stationary phase comprises carbon-clad metal oxide particles having attached at least one organic group.
- 13. A membrane separation system comprising a membrane wherein said membrane comprises carbon-clad metal oxide particles having attached at least one organic group.
- 14. The membrane separation system of claim 13, wherein said system is a reverse osmosis system.
- 15. An electrophoresis separation comprising a stationary phase, a mobile phase, and a positive electrode and a negative electrode, wherein said stationary phase comprises carbon-clad metal oxide particles having attached at least one organic group.
- 16. The separation device of claim 5, wherein the organic group is a phenyl or naphthyl group having ionic or ionizable groups.
- 17. The separation device of claim 5, wherein the organic group comprises an amino acid or derivatized amino acid, cyclodextrin, immobilized protein, polyproteins, or combinations thereof.
- 18. The separation device of claim 5, wherein the organic group comprises a —C6F5 group, a trifluoromethyl-phenyl group, a bis-trifluorophenyl group, or combinations thereof.
- 19. The separation device of claim 5, wherein the organic group comprises —Ar—(CnH2n+1)x group, wherein n is an integer of from about 1 to about 30 and x is an integer of from about 1 to about 3.
- 20. The separation device of claim 5, wherein the organic group comprises an immobilized protein for the separations of racemic mixtures into their optically pure components.
- 21. The separation device of claim 5, wherein the organic group comprises polyethylene glycol or methoxy-terminated polyethyleneglycol.
- 22. The separation device of claim 5, wherein the organic group comprises —Ar—((CnH2n)COOX)m, wherein Ar is an aromatic group, n is 1 to 20, m is 1 to 3, and X is H, a cation, or an organic group.
- 23. The separation device of claim 5, wherein the organic group comprises Ar—((CnH2n)OH)m, wherein Ar is an aromatic group, n is 1 to 20, m is 1 to 3.
- 24. The separation device of claim 5, wherein the organic group comprises —Ar—((CnH2n)NH2)m, where n is 1 to 20, m is 1 to 3, or its protonated form: —Ar—((CnH2n)NH3X)m, wherein X is an ion, and Ar is an aromatic group.
- 25. The separation device of claim 5, wherein the organic group comprises —Ar—(CnH2n)CHNH3+COO− and the reaction products thereof with molecules containing functional groups terminated in —NH2, —OH, or —COOH, wherein Ar is an aromatic group.
- 26. The separation device of claim 19, where n=18 and x=1.
- 27. The separation device of claim 19, where n=8 and x=1.
- 28. The separation device of claim 26, further comprising a second organic group attached on the carbonaceous material.
- 29. The separation device of claim 27, further comprising a second organic group attached on the carbonaceous material.
- 30. The separation device of claim 28, where the second organic group is —Ar—C(CH3)3.
- 31. The separation device of claim 29, where the second organic group is —Ar—C(CH3)3
- 32. The separation device of claim 5, wherein the organic group comprises —Ar—((CnH2n)CH═CH2)m, wherein n is 0 to 20, m is 1 to 3 or —Ar—((CnH2n)SO2CH═CH2)m, where n is 0 to 20 and m is 1 to 3.
- 33. The separation device of claim 5, wherein the organic group comprises at least one chiral ligand group.
- 34. The separation device of claim 16, further comprising a second organic group attached on the carbonaceous material.
- 35. The separation device of claim 17, further comprising a second organic group attached on the carbonaceous material.
- 36. The separation device of claim 18, further comprising a second organic group attached on the carbonaceous material.
- 37. The separation device of claim 19, further comprising a second organic group attached on the carbonaceous material.
- 38. The separation device of claim 20, further comprising a second organic group attached on the carbonaceous material.
- 39. The separation device of claim 21, further comprising a second organic group attached on the carbonaceous material.
- 40. The separation device of claim 22, further comprising a second organic group attached on the carbonaceous material.
- 41. The separation device of claim 23, further comprising a second organic group attached on the carbonaceous material.
- 42. The separation device of claim 24, further comprising a second organic group attached on the carbonaceous material.
- 43. The separation device of claim 25, further comprising a second organic group attached on the carbonaceous material.
- 44. The separation device of claim 32, further comprising a second organic group attached on the carbonaceous material.
- 45. The separation device of claim 34, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 46. The separation device of claim 35, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 47. The separation device of claim 36, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 48. The separation device of claim 37, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 49. The separation device of claim 38, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 50. The separation device of claim 39, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 51. The separation device of claim 40, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 52. The separation device of claim 41, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 53. The separation device of claim 42, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 54. The separation device of claim 43, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 55. The separation device of claim 44, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 56. The separation device of claim 5, wherein the organic group comprises —Ar—(CnH2n)CN)m, wherein Ar is an aromatic group, n is 0 to 20, and m is 1 to 3.
- 57. The separation device of claim 5, wherein the organic group comprises —Ar—((CnH2n)C(O)N(H)—CxH2x+1)m, wherein Ar is an aromatic group, n is 0 to 20, x is 0 to 20 and m is 1 to 3.
- 58. The separation device of claim 5, wherein the organic group comprises —Ar—((CnH2n)N(H)C(O)—CxH2x+1)m, wherein Ar is an aromatic group, n is 0 to 20, x is 0 to 20 and m is 1 to 3.
- 59. The separation device of claim 5, wherein the organic group comprises —Ar—((CnH2n)O—C(O)—N(H)—CxH2x+1)m, wherein Ar is an aromatic group, n is 0 to 20, x is 0 to 20 and m is 1 to 3.
- 60. The separation device of claim 5, wherein the organic group comprises —Ar—((CnH2n)C(O)N(H)—R)m, wherein Ar is an aromatic group, n is 0 to 20, x is 0 to 20 and m is 1 to 3, and R is an organic group.
- 61. The separation device of claim 5, wherein the organic group comprises —Ar—((CnH2n)N(H)C(O)—R)m, wherein Ar is an aromatic group, n is 0 to 20, x is 0 to 20 and m is 1 to 3, and R is an organic group.
- 62. The separation device of claim 5, wherein the organic group comprises —Ar—((CnH2n)O—C(O)N(H)—R)m, wherein Ar is an aromatic group, n is 0 to 20, x is 0 to 20 and m is 1 to 3, and R is an organic group.
- 63. The separation device of claim 56, further comprising a second organic group attached on the carbonaceous material.
- 64. The separation device of claim 57, further comprising a second organic group attached on the carbonaceous material.
- 65. The separation device of claim 58, further comprising a second organic group attached on the carbonaceous material.
- 66. The separation device of claim 59, further comprising a second organic group attached on the carbonaceous material.
- 67. The separation device of claim 60, further comprising a second organic group attached on the carbonaceous material.
- 68. The separation device of claim 61, further comprising a second organic group attached on the carbonaceous material.
- 69. The separation device of claim 62, further comprising a second organic group attached on the carbonaceous material.
- 70. The separation device of claim 63, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 71. The separation device of claim 64, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 72. The separation device of claim 65, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 73. The separation device of claim 66, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 74. The separation device of claim 67, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 75. The separation device of claim 68, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 76. The separation device of claim 69, wherein said second organic group has a shorter chain length or less steric hindrance than said organic group.
- 77. The chromatography column of claim 1, wherein the carbon-clad metal oxide particles are carbon-clad zirconium dioxide particles.
- 78. The chromatography column of claim 2, wherein the carbon-clad metal oxide particles are carbon-clad zirconium dioxide particles.
- 79. The chromatography column of claim 3, wherein the carbon-clad metal oxide particles are carbon-clad zirconium dioxide particles.
- 80. The separation device of claim 5, wherein the carbon-clad metal oxide particles are carbon-clad zirconium dioxide particles.
- 81. The separation device of claim 19, wherein the carbon-clad metal oxide particles are carbon-clad zirconium dioxide particles.
- 82. The separation device of claim 5, wherein the organic group comprises an optically active aminoacid or derivatized aminoacid for the separations of racemic mixtures into their optically pure components.
- 83. The separation device of claim 5, wherein the organic group comprises cyclodextrin attached through a group —Ar(CH2)m, where n=0 to 15 for the separations of racemic mixtures into their optically pure components.
Parent Case Info
[0001] This application claims the benefit under 35 U.S.C. §119(e) of prior U.S. Provisional Patent Application No. 60/229,696 filed Sep. 1, 2000, which is incorporated in its entirety by reference herein.
Provisional Applications (1)
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Number |
Date |
Country |
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60229696 |
Sep 2000 |
US |