4X - 3/32" female white nylon barb to luer lock
Buy at least 4 x number of caps + extra
Nylon required to survive autoclaving (expansion differential between normally used polypropylene and nylon 3D printed vial causes epoxy to separate)
Semi-clear white hard nylon tubing (1/8" OD)
[Recommended] Rubber stopper
[Recommended] O ring
[Optional] Mark fluid lines on a glass eVOLVER vial (see below image)
This will be used to set the efflux tube height, which sets the volume in the eVOLVER vial.
Tape an eVOLVER vial
Using a serological pipette, measure water into the vial in increments of 5 mL
Mark the volume at each increment on the tape at the bottom of the meniscus
Using a razor, trim nylon tubing so that it reaches the volume you have set
Nylon tubing will straighten in the autoclave, so try and straighten it out as much as you can
Cut to 53 cm for 20mL
Otherwise, determine the correct length using graduated eVOLVER vial from step 1
Cut the tubing to a longer length than you need
Pushing it into the vial cap until you feel a little resistance (easy to accidentally go further, but there is a stopping point)
Screw the cap on all the way
Estimate where to trim
Check in vial cap again
Measure length when you have this correct - use this for the rest of your vials
Cut all tubing for the caps you are making
Use gloves when working with epoxy
Put epoxy into mixing tray and mix
You don't need much because epoxy will likely set before you finish all vials
Apply epoxy to barb of luer connector
Be generous, but avoid the opening in the barb
Press the connector into a port in the top of the cap
Repeat steps 4 and 5 for the other ports
When epoxy starts to solidify, mix more (in a new tray)
Wait for at least an hour for epoxy to set somewhat
Epoxy one side of the outside of efflux tube (avoiding the hole)
Press the tube into left port of cap (when sampling port is facing you) (see below)
Only press until you feel a slight resistance
Repeat steps 8 and 9 for all caps
Allow epoxy to set 24 hours before using
