Multi-dimensional chromatography system using at-column dilution

What is claimed is: 1. A chromatography system comprising: (i) a first fluid pump for pumping a first flow stream; (ii) a first chromatography column downstream of the first pump; (iii) a first valve downstream of the first chromatography column; (iv) a first detector and a mixer, both downstream of the first valve, wherein the first valve is configured to divert the first flow stream to the first detector or to the mixer; (v) a second fluid pump for pumping a second flow stream in fluid communication with the mixer, wherein the first and second flow streams have at least one physical or chemical difference and combine in the mixer to form a third flow stream, wherein the first and second pumps can vary the ratio of first to second flow streams forming the third flow stream from 0:1 to 1:0; (vi) a second valve downstream of the mixer; wherein the second valve is configured to divert the third flow stream to a trap or to waste, the trap having a front end and a back end and the third flow stream is in fluid communication with the front end of the trap, and wherein the trap is configured to physically or chemically retain an analyte in the third flow stream; (vii) a third fluid pump for pumping a fourth flow stream and in fluid communication with the second valve; wherein the second valve is configured to divert the fourth flow stream to a second chromatography column or to the back end of the trap and then through the second chromatography column; and (viii) one or more detectors downstream of the second chromatography column. 2. The chromatography system of claim 1 , wherein the chromatography comprises normal phase, reversed phase, carbon dioxide based chromatography, ion exchange, size exclusion, hydrophilic interaction liquid interaction chromatography, hydrophobic interaction chromatography or affinity chromatography. 3. The chromatography system of claim 1 , wherein the first flow stream is a strong mobile phase and the second flow stream is a weak mobile phase. 4. The chromatography system of claim 1 , wherein the third flow stream has 50% or less by volume of organic composition than the first flow stream. 5. The chromatography system of claim 1 , wherein the third flow stream has a pH value at least 1 pH unit different than the first flow stream. 6. The chromatography system of claim 1 , wherein the third flow stream has 50% or less ionic strength than the first flow stream. 7. A chromatography system comprising: (i) a first fluid pump for pumping a first flow stream; (ii) a first chromatography column downstream of the first pump; (iii) a first valve downstream of the first chromatography column; (iv) a first detector, a second valve and a mixer, each downstream of the first valve, wherein the first valve is configured to divert the first flow stream to the first detector or to the second valve; wherein the second valve is configured to divert the first flow stream to the mixer or to waste; (v) a second fluid pump for pumping a second flow stream in fluid communication with the mixer, wherein the first and second flow streams have at least one physical or chemical difference and combine in the mixer to form a third flow stream, wherein the first and second pumps can vary the ratio of first to second flow streams forming the third flow stream from 0:1 to 1:0; (vi) a trap downstream of the mixer, the trap having a front end and a back end, wherein the third flow stream is in fluid communication with the front end of the trap and wherein the trap is configured to physically or chemically retain an analyte in the third flow stream; (vii) a third fluid pump for pumping a fourth flow stream and in fluid communication with the second valve; wherein the second valve is configured to divert the fourth flow stream to (a) a second chromatography column, or (b) the back end of the trap or loop, then to the mixer wherein the fourth and a fifth flow stream having at least one physical or chemical difference combine to form a sixth flow stream, wherein the second and third pumps can vary the ratio of fourth to fifth flow streams forming the sixth flow stream from 0:1 to 1:0, and through the second chromatography column; and (viii) one or more detectors downstream of the second chromatography column. 8. The chromatography system of claim 7 , wherein the chromatography comprises normal phase, reversed phase, carbon dioxide based chromatography, ion exchange, size exclusion, hydrophilic interaction liquid interaction chromatography, hydrophobic interaction chromatography or affinity chromatography. 9. The chromatography system of claim 7 , wherein the fourth flow stream is a strong mobile phase and the fifth flow stream is a weak mobile phase. 10. The chromatography system of claim 7 , wherein the sixth flow stream has 50% or less by volume of organic composition than the fourth flow stream. 11. The chromatography system of claim 7 , wherein the sixth flow stream has a pH value at least 1 pH unit different than the fourth flow stream. 12. The chromatography system of claim 7 , wherein the sixth flow stream has 50% or less ionic strength than the fourth flow stream.