Capillary emitter with electrospray ionization providing femtoliter to nanoliter flow rates

1 . A device for delivery of a liquid sample at a selected flow rate comprising: a capillary emitter having an outlet including inner and outer wall portions and an extended component affixed to the inner wall of said capillary emitter to provide one or more sub-channels for fluid flow; a plasma discharge source to provide plasma ions; an electric field source to direct said plasma ions to said capillary emitter outlet; wherein said capillary emitter provides a capillary liquid flow rate at said capillary emitter outlet in the range of 50 femtoliters/minute (fL/min) to 500 nanoliters/minute (nL/min). 2 . The device of claim 1 wherein said device provides a capillary liquid flow rate in the range of 50 picoliters/minute (pL/min) to 150 nL/min. 3 . The device of claim 1 wherein said device is capable of alternating between a capillary flow rate at a relatively lower flow rate of fL/min and a relatively higher flow rate of nL/min,. 4 . The device of claim 1 wherein said device is capable of alternating between a capillary flow rate at a relatively lower flow rate of pL/min and a relatively higher flow rate of nL/min. 5 . The device of clam 3 wherein said device alternates between said capillary flow rates of fL/min to nL/min over a period of 10 microseconds to 1.0 second. 6 . The device of claim 4 wherein said device alternates between said capillary flow rates of pL/min to nL/min over a period of 10 microseconds to 1.0 second. 7 . The device of claim 1 wherein said capillary emitter outlet comprises a tapered emitter tip. 8 . The device of claim 7 wherein said tapered emitter tip comprises an opening in the range of 5.0 nm to 20.0 µm. 9 . The device of claim 1 wherein said extended component has an outer diameter in the range of 0.01 µm to 100.0 µm. 10 . The device of claim 1 includig a DC voltage source that provides 0-5 kilovolts in either positive polarity mode or negative polarity mode to said electric field source. 11 . The device of claim 1 wherein said plasma discharge provides plasma ions that are present at the capillary emitter outlet. 12 . The device of claim 1 wherein said capillary emitter outlet has an opening diameter, and upon introduction of liquid sample to said capillary emitter, a liquid level is formed in said capillary emitter outlet that is smaller than said capillary emitter outlet opening diameter. 13 . The device of claim where said liquid at said capillary emitted outlet undergoes electrospray ionization. 14 . The device of claim 1 wherein said capillary emitter outlet has a diameter and said fluid flow at said capillary emtter outlet provides a fluid level that is smaller than said outlet diameter. 15 . A method delivery of a liquid sample at a selected flow rate comprising: providing a capillary emitter having an outlet including inner and outer wall portions and an extended component affixed to the inner wall of said capillary emitter to provide one or more sub-channels for fluid flow, including a plasma discharge source and an electric field source; forming plasma ions and providing an electric field to direct said plasma ions to said capillary emitter outlet; and introducing a liquid sample into said capillary emitter and providing at said capillary emitter outlet a liquid sample flow rate in the range of 50 femtoliters/minute (fL/min) to 500 nanolters/minute (nL/min). 16 . The method of claim 15 wherein said capillary liquid flow rate is in the range of 50 picoliters/minute (pL/min) to 150 nL/min. 17 . The method of claim 15 further comprising alternating between a relatively lower flow rate of fL/min and a realtively higher flow rate of nL/min. 18 . The method of claim 15 further comprising alternating between a relatively lower flow rate of pL/min and a relatively higher flow rate of nL/min.