The heating mantle is lowered to allow the distillation flask to cool to ambient temperature, and the cooling bath is removed from the receiving flask to allow it to thaw or warm to ambient temperature. Step 6: Once the distillation is complete, the stopcock is closed on the receiving flask. Heating the crude material under dynamic vacuum. During the distillation, it may be necessary to insulate the flask and part of the bridge with aluminium foil, or to briefly heat the glassware with a heat-gun. Since the crude material does not evaporate at ambient temperature, an ice bath is generally sufficient to cool the receiving flask and condense the distillate, however a dewar of liquid nitrogen can also be used. low pressure) has been established within the distillation setup, and the crude material is fully degassed, the temperature on the heating mantle can slowly be increased. Slowly reducing the pressure in the distillation setup. An external liquid nitrogen trap can be used between the receiving flask and Schlenk line to condense any volatile compounds. Note: The bulk material should be sufficiently high-boiling so that it does not evaporate at ambient temperatures whilst under vacuum.
This serves to degas the crude material and remove any residual solvent or volatile impurities. With stirring, the stopcock on the receiving Schlenk flask is slowly and carefully opened to vacuum. Step 4: The stopcocks on both Schlenk flasks are closed and the distillation flask is lowered into a suitable heating mantle or oil bath.
Distillation and receiving Schlenk flasks connected with a bridge. Ensure that inert gas is flowing into both flasks during this process to minimise exposure to atmospheric air and moisture. This may require a brief helping hand to remove clips and stoppers. Step 3: Once the receiving Schlenk flask and distillation bridge has been cycled onto the line and back-filled with inert gas, it is connected to the Schlenk flask containing the crude material. This differs from a typical distillation setup with a distillation head, thermometer adapter, and water-cooled condenser. Note: The style of distillation bridge (single-piece) illustrated is designed specifically to purify high-boiling liquids under high-vacuum. Step 2: A Schlenk flask, distillation bridge and Schlenk cap are greased, assembled and cycled onto the Schlenk line. For “in-house” prepared compounds, the crude material will typically remain in the Schlenk flask after removing the solvent and volatiles in vacuo. For commercially available reagents to be purified in bulk, this can be added to a Schlenk flask (that has already been cycled onto the Schlenk line) under a flow of inert gas. Step 1: The impure material is transferred to a suitable Schlenk flask equipped with a magnetic stir bar. This method is well suited for commercially available reagents or compounds prepared on a large scale in the laboratory in which the (often known) impurities are non-volatile and so remain behind after distillation. Dynamic vacuum distillations are routinely employed to purify high-boiling liquids (> 150 ☌) and some low-melting solids.
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