Liquid chromatography systems and methods

The invention claimed is: 1. A liquid chromatography system comprising: a first solvent manager adapted and configured to dispense various ratios of a first solvent and a second solvent; a first HILIC column in fluid communication with and downstream of the first solvent manager; a mixer in fluid communication with and downstream of the first column; a first valve in fluid communication with and downstream of the mixer; a second trapping column having a first end in fluid communication with a first port of the first valve and a second end in fluid communication with a second port of the first valve such that flow between the first port and the second port passes through the second trapping column; a second solvent manager adapted and configured to dispense various ratios of a third solvent and a fourth solvent; and a second valve in fluid communication with and downstream of the second solvent manager, wherein the second valve is in fluid communication with and upstream of the first valve at a first port of the second valve, and wherein the second valve is in fluid communication with and upstream of the mixer at a second port of the second valve; wherein the first valve and the second valve are adapted and configured for actuation between: a first position in which the second solvent manager is in fluid communication with the mixer through the second valve and the second trapping column is in fluid communication with the mixer through the first valve such that: solvent dispensed by the first solvent manager and an injected sample flow over the first column and provide a gradient of relatively higher to relatively lower organic concentration; eluent from the first column in a high organic solution is mixed and diluted with solvent dispensed by the second solvent manager in the mixer to produce a combined mobile phase; and the combined mobile phase is passed through the first valve and over the second trapping column in a first direction to trap analytes of interest on the first column; and a second position in which the second solvent manager is not in fluid communication with the mixer but is in fluid communication with the second trapping column through both the second valve and the first valve such that: solvent dispensed by the second solvent manager is passed over the second column in a second direction to release the analytes of interest from the second column. 2. The system of claim 1 , further comprising: a third column in fluid communication with the first valve, wherein the solvent dispensed by the second solvent manager and the analytes of interest eluted off of the second column are passed over the third column. 3. The system of claim 2 , wherein the third column is a reversed-phase analytical column. 4. The system of claim 2 , wherein the third column is an HSS T3 column. 5. The system of claim 2 , wherein eluent from the third column is presented to a mass spectrometer for analysis. 6. The system of claim 1 , wherein the first solvent manager is adapted and configured to, while the first valve and the second valve are in the first position, shift from dispensing the first solvent to dispensing the second solvent, wherein the first solvent has high organic phase content and wherein the second solvent has high aqueous phase content. 7. The system of claim 1 , wherein the second solvent manager is adapted and configured to: while the first valve and the second valve are in the first position, dispense the third solvent, wherein the third solvent has high aqueous phase content; and while the first valve and the second valve are in the second position, modulate from dispensing the third solvent to dispense increasing ratios of the fourth solvent, wherein the fourth solvent has high organic phase content.