Modular radiochemistry synthesis system

1 - 33 . (canceled) 34 . A method of performing radiochemistry synthesis comprising: providing a vial having an upper rim, the vial configured to hold one or more reactants or reactant products of the radiochemistry synthesis; providing a reactor vessel having a heating element and a thermally-conductive heat transfer block, the vial being contained within the thermally-conductive heat transfer block; providing a stationary fluidic interface disposed above the reactor vessel and vial and comprising a plurality of elastomeric stoppers, wherein at least one of the elastomeric stoppers comprises a completely sealed surface and at least one of the elastomeric stoppers comprises a port fluidically coupled to tubing; providing a horizontal actuator coupled to the reactor vessel and configured to move the reactor vessel along a substantially horizontal axis of motion; providing a vertical actuator coupled to the reactor vessel and configured to move the reactor vessel along a substantially vertical axis of motion; providing a motion controller operatively coupled to the horizontal actuator and the vertical actuator; and wherein the motion controller operates in accordance with a program to selectively seal the upper rim of the vial against the plurality of elastomeric stoppers. 35 . The method of claim 34 , wherein the program is preprogrammed using a control unit associated with a computer. 36 . The method of claim 34 , wherein the tubing is connected to a purification unit and contents of the vial are transferred from the vial to the purification unit. 37 . The method of claim 36 , wherein a dip tube extends from the stationary fluidic interface and into the vial when the upper rim of the vial is sealed against the plurality of elastomeric stoppers. 38 . The method of claim 34 , wherein the tubing is connected to a source of vacuum and the source of vacuum transfers contents out of the vial. 39 . The method of claim 34 , wherein the tubing is connected to a source of inert gas, wherein the source of inert gas is introduced into the vial. 40 . The method of claim 34 , wherein the tubing is connected to one or more reagent sources, wherein at least one reagent is introduced into the vial. 41 . The method of claim 34 , further comprising measuring the radioactivity of the reactant products of the radiochemistry synthesis with a radiation sensor. 42 . The method of claim 34 , wherein the stationary fluidic interface comprises a first elastomeric stopper in a first position that includes a conduit that extends through the first elastomeric stopper and second elastomeric stopper in a second position that comprises the completely sealed surface. 43 . The method of claim 42 , wherein the second elastomeric stopper comprises a chemically inert gasket. 44 . The method of claim 34 , wherein the stationary fluidic interface comprises a first elastomeric stopper in a first position that includes tubing that extends through the first elastomeric stopper, a second elastomeric stopper in a second position that comprises the completely sealed surface, and third elastomeric stopper that includes a dip tube that extends through the third elastomeric stopper. 45 . The method of claim 44 , further comprising sealing the upper rim of the vial against the first elastomeric stopper and adding reagents into the vial. 46 . The method of claim 45 , wherein the reagents comprise an aqueous F-18 solution, a dry organic solvent, a phase transfer agent, and a carbonate. 47 . The method of claim 45 , further comprising mixing the contents of the vial by bubbling an inert gas in the vial.