Desalting system for chromatography

What is claimed is: 1 . An analytical system comprising: a) a pump configured to pump a mobile phase; b) an injection valve configured to input a sample into the mobile phase, the injection valve is fluidly coupled to an output of the pump; c) a chromatography column configured to separate the sample into one or more analytes, the chromatography column fluidly coupled to an output of the injection valve; d) an ion removal device configured to remove at least ions of one charge from the mobile phase, the ion removal device fluidly coupled to an output of the chromatography column; e) an ion selective sensor configured to measure a signal corresponding to an activity of the at least ions of one charge in the mobile phase, the ion selective sensor fluidly coupled to an output of the ion removal device; f) an optional diverter valve that can interrupt a flow of the mobile phase; and g) a microprocessor configured to monitor the signal of the ion selective sensor and when the signal is greater than a predetermined threshold to either switch the optional diverter valve to interrupt the flow of the mobile phase or turn off the pump. 2 . The analytical system of claim 1 , further comprising: h) a first splitting device comprising a first inlet, a first outlet, and a second outlet, wherein the first inlet is fluidly coupled to each of the first outlet and the second outlet, the first inlet also is fluidly coupled to the ion removal device so that the mobile phase flows from the ion removal device to the first inlet, the first outlet is fluidly coupled to an input of the ion selective sensor so that the mobile phase flows from the first outlet to the input of the ion selective sensor; wherein the first splitting device is configured to split the mobile phase inputted into the first inlet from the ion removal device so that a first portion of the mobile phase flows to the first outlet and a second portion of the mobile phase flows to the second outlet. 3 . The analytical system of claim 2 , wherein the analytical system comprises the diverter valve that can interrupt the flow of the mobile phase, wherein the diverter valve has a first valve inlet, a first valve outlet, and a second valve outlet; the diverter valve having a first state and a second state; wherein the first valve inlet is fluidly coupled to the first valve outlet and not fluidly coupled to the second valve outlet in the first state; wherein the first valve inlet is fluidly coupled to the second valve outlet and not fluidly coupled to the first valve outlet in the second state. 4 . The analytical system of claim 3 , wherein the second outlet of the first splitting device is fluidly coupled to the first valve inlet of the diverter valve. 5 . The analytical system of claim 4 , wherein either the first or second valve outlet of the diverter valve is fluidly connected to a mass spectrometer. 6 . The analytical system of claim 1 , wherein the at least ions of one charge is selected from the group consisting of lithium, sodium, potassium, cesium, and rubidium. 7 . The analytical system of claim 1 , wherein the ion selective sensor comprises a solid state electrode and the ion selective sensor does not leach an ion exchange reagent. 8 . The analytical system of claim 1 further comprising an ion selective flow cell, the ion selective flow cell having a flow cell inlet and a flow cell outlet, the ion selective flow cell containing the ion selective sensor, the flow cell inlet fluidly coupled to the output of the ion removal device. 9 . The analytical system of claim 2 , wherein the ion selective sensor is a hydronium electrode and the signal corresponds to a pH value, wherein the predetermined threshold is selected from a pH value between the range of 2-4. 10 . The analytical system of claim 2 , wherein the ion selective sensor is a potassium electrode and the signal corresponds to a potassium activity value, wherein the predetermined threshold corresponds to the potassium activity value of 1.75 mM. 11 . The analytical system of claim 1 , wherein the ion selective sensor comprises a cation suppressor and a conductivity sensor, wherein the cation suppressor has an output and wherein the conductivity sensor has an input, wherein the output of the cation suppressor is fluidly coupled with the input of the conductivity sensor. 12 . The analytical system of claim 1 further comprising: i) a second splitting device comprising a second inlet, a third outlet, and a fourth outlet, wherein the second inlet is fluidly coupled to each of the third outlet and the fourth outlet, the second inlet is also fluidly coupled to the output of the chromatography column, the third outlet is fluidly coupled to the ion removal device, and the fourth outlet is fluidly coupled to an electrochemical detector; wherein the second splitting device is configured to split the mobile phase inputted into the second inlet so that a third portion of the mobile phase flows to the third outlet and a fourth portion of the mobile phase flows to the fourth outlet.