Care and use manual, Viii. long term, nanoacquit y column storage, Xi. ordering information – Waters nanoACQUITY UPLC Columns User Manual

[ Care and Use ManUal ]

nanoACQUITY UPLC Column Care and Use

8

What flow rate can I used with each type of emitter?



The flow rate of an LC method should be determined by the optimal

flow rate for the particular column. The optimal flow rate is directly
related to the column ID



A PicoTip is ideally suited for nanospray applications while the TaperTip

is suited for microspray applications (>1 µl/min)



Waters currently does not condone the use of a nanospray source for

the 300 µm column format.

VIII. long term, nanoaCQuIt Y Column storage



When not used, it is recommended to maintain flow through the

nanoACQUITY column using 100% eluent B to maximize bed stability
and minimize potential bed drying



If prolonged column storage required or if the column needs to be

removed from system, it is recommended that the nanoACQUITY
column is flushed with 100% organic solvent containing no TFA
or FA (e.g. simply store in 100% acetonitrile).

XI. orderIng InformatIon

For use with nanoACQUITY UPLC

systems rated to 10,000 psi only.Not for use with nanoACQUITY UPLC

systems rated to 5,000 psi.

Description

Inner

Diameter

Length

Particle

Size

Part No.

nanoACQUITY UPLC Columns (10,000 psi)

Symmetry C

18

75 µm

100 mm 3.5 µm

186003491

Symmetry C

18

75 µm

150 mm 3.5 µm

186003492

Symmetry C

18

100 µm

100 mm 3.5 µm

186003493

Symmetry C

18

100 µm

150 mm 3.5 µm

186003494

Symmetry C

18

150 µm

100 mm 3.5 µm

186003495

Symmetry C

18

150 µm

150 mm 3.5 µm

186003496

Symmetry C

18

300 µm

100 mm 3.5 µm

186003497

Symmetry C

18

300 µm

150 mm 3.5 µm

186003498

Atlantis dC

18

75 µm

100 mm 3 µm

186003499

Atlantis dC

18

75 µm

150 mm 3 µm

186003500

Atlantis dC

18

100 µm

100 mm 3 µm

186003501

Atlantis dC

18

100 µm

150 mm 3 µm

186003502

Atlantis dC

18

150 µm

100 mm 3 µm

186003503

Atlantis dC

18

150 µm

150 mm 3 µm

186003504

Atlantis dC

18

300 µm

100 mm 3 µm

186003505

Atlantis dC

18

300 µm

150 mm 3 µm

186003506

Peptide Separation Technology nanoACQUITY UPLC
Columns (10,000 psi)

nanoACQUITY UPLC BEH130 C

18

75 µm

100 mm 1.7 µm

186003542

nanoACQUITY UPLC BEH130 C

18

75 µm

150 mm 1.7 µm

186003543

nanoACQUITY UPLC BEH130 C

18

75 µm

200 mm 1.7 µm

186003544

nanoACQUITY UPLC BEH130 C

18

75 µm

250 mm 1.7 µm

186003545

nanoACQUITY UPLC BEH130 C

18

100 µm

100 mm 1.7 µm

186003546

nanoACQUITY UPLC BEH130 C

18

150 µm

100 mm 1.7 µm

186003550

nanoACQUITY UPLC BEH300 C

18

75 µm

100 mm 1.7 µm

186003810

nanoACQUITY UPLC BEH300 C

18

100 µm

100 mm 1.7 µm

186003811

nanoACQUITY UPLC BEH300 C

18

150 µm

100 mm 1.7 µm

186003812

nanoACQUITY UPLC BEH300 C

18

75 µm

150 mm 1.7 µm

186003813

nanoACQUITY UPLC BEH300 C

18

75 µm

200 mm 1.7 µm

186003814

nanoACQUITY UPLC BEH300 C

18

75 µm

250 mm 1.7 µm

186003815

Protein Separation Technology nanoACQUITY UPLC
Columns (10,000 psi)

nanoACQUITY UPLC BEH300 C

4

75 µm

100 mm 1.7 µm

186004639

nanoACQUITY UPLC BEH300 C

4

100 µm

100 mm 1.7 µm

186004640

nanoACQUITY UPLC BEH300 C

4

150 µm

100 mm 1.7 µm

186004641