Transfer cap

What claimed is: 1. A cap that is capable of being fitted to a bottle, the cap comprising: a transfer port; and a vent port that includes a membrane and a valve; and wherein an ion leaching of materials used for manufacturing of the cap provide ion cleanliness levels <1 ppb for elements: Zn, Pb, Li, Sn, Ba, Co, Sr, and Pd; wherein the transfer cap is fitted to the bottle by one of: threads which interface with threads of the bottle; and a snap fitting which interfaces with a lip on the bottle. 2. The cap of claim 1 , wherein the bottle is configured for storing and transporting liquid. 3. The cap of claim 1 , wherein the transfer port is a liquid transfer port for draining or filling fluid in and out of the bottle. 4. The cap of claim 1 , wherein the valve is one of a poppet valve, a check valve, and a manual vent. 5. The cap of claim 1 , further comprising a drain port with a connector in the cap allowing the attachment of a drain tube onto the cap extending away from the bottle. 6. The cap of claim 1 , wherein the membrane is made of expanded PTFE. 7. The cap of claim 1 , wherein the transfer port comprises: a dip connector allowing the attachment of a dip tube onto the cap extending into the bottle; and a transfer connector allowing the attachment of a transfer tube onto the cap extending out of the bottle. 8. The cap of claim 7 , wherein the dip connector and the transfer connector are compression fittings or screw fittings. 9. The cap of claim 1 , further comprising an additional port, wherein the additional port comprises: an additional dip connector allowing the attachment of an additional dip tube onto the cap extending into the bottle. 10. The cap of claim 9 , wherein the additional port further comprises: an additional transfer connector allowing the attachment of an additional transfer tube onto the cap extending out of the bottle. 11. The cap of claim 10 , wherein the additional transfer tube connects the cap to at least one of a reservoir and a valve. 12. The cap of claim 1 , wherein; when the valve is open the vent port allows gas to pass through the vent port and does not substantially allow liquid to pass through the vent port, wherein the membrane is disposed so as to prevent liquid from scattering outside through the vent port when opening the valve included in the vent port; and when the valve is closed the vent port does not substantially allow gas or liquid to pass through the vent port. 13. The cap of claim 1 , wherein the valve opens automatically when internal pressure on the bottle side of the cap is outside an internal pressure range. 14. The cap of claim 13 , further comprising a manual vent port that can be opened if the valve that opens automatically fails. 15. The cap of claim 1 , wherein bulk material of the membrane is made of a material that is compatible with cleaning techniques which are capable of removing ions and small molecules from throughout the membrane to a level of at least 1 ppb. 16. The cap of claim 1 , wherein the ion leaching of materials used for manufacturing of the cap provide ion cleanliness levels <1 ppb for elements: Na, Ca, Fe, K, Al, Mg, Ni, Cr, Cu, and Mn. 17. The cap of claim 1 , wherein materials of the membrane, the valve, a surface of the transfer port, and a surface of the vent port are made of material that is compatible with cleaning techniques which are capable of removing ions and small molecules from their surfaces to a level of at least 1 ppb. 18. The cap of claim 1 , wherein one or more of the materials used for fabricating the cap are selected from: polypropylene; polyethylene; and fluorinated plastics, such as polyvinylidene fluoride; and PTFE. 19. A method of using a cap attached to a bottle wherein the cap comprises: a transfer port and a vent port that includes a membrane and a valve, wherein an ion leaching of materials used for manufacturing of the cap provide ion cleanliness levels <1 ppb for elements: Zn, Pb, Li, Sn, Ba, Co, Sr, and Pd, wherein the transfer cap is fitted to the bottle by one of: threads which interface with threads of the bottle; and a snap fitting which interfaces with a lip on the bottle, the method comprising: removing one of a vent cap or a vent plug from the vent port; opening the vent port with a manual valve; removing one of a transfer cap or a transfer plug from the transfer port; attaching the bottle to a reservoir via a transfer tube; and activating a pump to draw liquid out of the bottle via the transfer tube and into the reservoir. 20. A liquid transfer system comprising: a bottle containing a liquid; a cap attached to the bottle wherein the cap comprises: a transfer port; and a vent port that includes a membrane and a valve; wherein an ion leaching of materials used for manufacturing of the cap provide ion cleanliness levels <1 ppb for elements: Zn, Pb, Li, Sn, Ba, Co, Sr, and Pd; wherein the transfer cap is fitted to the bottle by one of: threads which interface with threads of the bottle; and a snap fitting which interfaces with a lip on the bottle; a reservoir; a transfer tube connecting the reservoir to the transfer port; and a pump to draw liquid out of the bottle via the transfer tube and into the reservoir.