Systems and methods for two-dimensional chromatography

What is claimed is: 1. A chromatography system for separating a sample comprising: a first separation unit comprising: a) a first pump assembly for driving a first mobile phase through the first separation unit, b) a sample injector for introducing a sample to the first separation unit; and c) a reversed-phase liquid chromatography (RPLC) column; a second separation unit comprising: a) a second pump assembly for driving a second mobile phase through the second separation unit, and b) a supercritical fluid chromatography (SFC) column; and, a first fluidic routing unit comprising a plurality of sample loops, said first fluidic routing unit is connected to the first separation unit and the second separation unit, wherein at least one of the plurality of sample loops comprises a trapping column, said trapping column comprising a stationary phase; and wherein the chromatography system is configured for first separating the sample in the first separation unit and subsequently introducing at least a portion of the sample eluted from the RPLC column of the first separation unit to the second separation unit. 2. The chromatography system of claim 1 , wherein the first fluidic routing unit comprises two sample loops; wherein one of the two sample loops is in fluidic communication with the first separation unit and the other one of the two sample loops is in fluidic communication with the second separation unit. 3. The chromatography system of claim 1 , wherein the first fluidic routing unit comprises at least three sample loops, and wherein at least one of the sample loops is in fluidic isolation from the first separation unit and the second separation unit. 4. The chromatography system of claim 3 , wherein at least one sample loop comprising a stationary phase material is in fluidic isolation from the first separation unit and the second separation unit. 5. The chromatography system of claim 1 , wherein the first fluidic routing unit comprises a plurality of trapping columns each positioned in a sample loop. 6. The chromatography system of claim 1 , wherein the first fluidic routing unit is configured to allow fluid flow through a sample loop in a first direction when said sample loop is positioned in fluidic communication with the first separation unit and to allow fluid flow through said sample loop in a direction opposite to the first direction when said sample loop is positioned in fluidic communication with the second separation unit. 7. The chromatography system of claim 1 , wherein the first fluidic routing unit is configured to allow fluid flow through a sample loop in a first direction when said sample loop is positioned in fluidic communication with the first separation unit and to allow fluid flow through said sample loop in a direction same as the first direction when said sample loop is positioned in fluidic communication with the second separation unit. 8. The chromatography system of claim 1 , wherein the RPLC column comprises a reversed-phase stationary phase. 9. The chromatography system of claim 8 , wherein the reversed-phase stationary phase comprises a C-18 phase. 10. The chromatography system of claim 8 , wherein the stationary phase in the trapping column comprises a reversed-phase material. 11. The chromatography system of claim 9 , wherein the reversed-phase material comprises a C-18 phase. 12. The chromatography system of claim 1 , wherein the second separation unit comprises one SFC column. 13. The chromatography system of claim 12 , wherein the SFC column comprises a normal phase stationary phase. 14. The chromatography system of claim 13 , wherein the normal phase stationary phase comprises a silica gel. 15. The chromatography system of claim 1 , wherein the second separation unit further comprises a focus column located upstream of the SFC column. 16. The chromatography system of claim 15 , wherein the focus column comprises a reversed-phase material. 17. The chromatography system of claim 1 , wherein the second separation unit comprises: a) an array of SFC columns, wherein the SFC columns in the array are arranged in a parallel configuration; and b) a second fluidic routing unit for directing flow of the second mobile phase to a pre-identified SFC column in the array. 18. The chromatography system of claim 17 , wherein the second separation unit further comprises a focus column located upstream of each SFC column in the array of SFC columns. 19. The chromatography system of claim 1 , further comprising a first detector positioned downstream of the RPLC column. 20. The chromatography system of claim 1 , further comprising a second detector positioned downstream of the SFC column. 21. The chromatography system of claim 1 , further comprising at least one control device operably connected to one or more of: a) the first pump assembly; b) the sample injector; c) the first detector; d) the first fluidic routing unit; e) the second pump assembly; and f) the second detector.