O2k-OpenSupportAlert2020 Archive: Difference between revisions
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| width="110" align="center" | [[Image:O2k-Support.jpg|60px|link=http://wiki.oroboros.at/index.php/O2k-Open_Support |O2k-Open Support]][[File:Red-loss of data.png|25px|Warning: loss of data]] | | width="110" align="center" | [[Image:O2k-Support.jpg|60px|link=http://wiki.oroboros.at/index.php/O2k-Open_Support |O2k-Open Support]][[File:Red-loss of data.png|25px|Warning: loss of data]] | ||
|'''Is the noise seen in the slope of the oxygen signal (O2 slope neg.) within recommended values?'''<br> | |'''Is the noise seen in the slope of the oxygen signal (O2 slope neg.) within recommended values?'''<br> | ||
: An 'O2 slope neg.' within | : An 'O2 slope neg.' within ± 2 pmol∙s<sup>−1</sup>∙mL<sup>−1</sup> is optimal (± 4 pmol∙s<sup>−1</sup>∙mL<sup>−1</sup> is acceptable)<br> | ||
- » [[Oxygen_calibration_-_DatLab#Instrumental_DL-Protocols| Air and zero calibration]]« | - » [[Oxygen_calibration_-_DatLab#Instrumental_DL-Protocols| Air and zero calibration]]« | ||
|} | |} |
Revision as of 10:46, 30 June 2020
- Currently Answered Questions from the »Oroboros Ecosystem Agenda«
Jun 2020
- Jun-01 Mo
Did you know that instabilities of the slope of the oxygen signal (O2 slope neg.) can be prevented by the proper use of TIP2k-Filter Papers during an instrumental O2 background test?
- »Unstable 'O2 slope neg.'« and »TIP2k Filter Papers«
- Jun-15 Mo
Did you know that fluorescence signal artefacts can occur after the injection of substrates and inhibitors when using the Amplex UltraRed assay? - » Injection artefact«
- Jun-22 Mo
Did you know a stirrer test can save your experiments?
Get immediate information on how satisfactory your OroboPOS response time is by performing a stirrer test during air calibration.
- »Oxygen calibration - DatLab«
- Jun-29 Mo
Is the noise seen in the slope of the oxygen signal (O2 slope neg.) within recommended values?
- An 'O2 slope neg.' within ± 2 pmol∙s−1∙mL−1 is optimal (± 4 pmol∙s−1∙mL−1 is acceptable)
- An 'O2 slope neg.' within ± 2 pmol∙s−1∙mL−1 is optimal (± 4 pmol∙s−1∙mL−1 is acceptable)