Difference between revisions of "Frequently Asked Questions C4D"

From eDAQ Wiki
Jump to: navigation, search
Line 5: Line 5:
  
 
Then, you should optimise the C4D settings (amplitude, frequency and headstage gain) for the background electrolyte you are using. The easiest way to do this is to use the C4D Profiler software. You can download it from [https://www.edaq.com/software-downloads here] and look at the [https://www.edaq.com/wiki/C4D_Profiler_in_PowerChrom_Software instructions] and [https://www.edaq.com/wiki/The_C4D_Profiler_in_PowerChrom_Software_to_Optimise_C4D_Settings video].
 
Then, you should optimise the C4D settings (amplitude, frequency and headstage gain) for the background electrolyte you are using. The easiest way to do this is to use the C4D Profiler software. You can download it from [https://www.edaq.com/software-downloads here] and look at the [https://www.edaq.com/wiki/C4D_Profiler_in_PowerChrom_Software instructions] and [https://www.edaq.com/wiki/The_C4D_Profiler_in_PowerChrom_Software_to_Optimise_C4D_Settings video].
 +
 +
=== My C4D headstage has two holes in it. Which hole should I use for my capillary/tubing? ===
 +
 +
C4D headstages have two holes or guide tubes. You can push your capillary/tube into either guide tube, it really doesn’t matter. The guide tube you push your capillary into will act as the detecting tube and the empty one will act as a reference tube. One signal is taken away from the other, and this helps to reduce stray capacitance.
 +
 +
This is NOT a twin detector; You cannot push a capillary into each guide tube and expect to record two different signals.
 +
 +
If you wish to obtain the best sensitivity from your headstage (increase the signal-to-noise ratio), and have already perfected your experimental method and optimised the C4D settings (amplitude, frequency and headstage gain), you try the following: dilute your background electrolyte by 10% (90% background electrolyte and 10% distilled water), fill it into a short length of capillary/tube, and push it into the empty guide tube. Do not use undiluted (100%) background electrolyte, as this will balance the bridge in the headstage and can lead to strange signals.
 +
 +
This has been observed to increase the signal-to-noise ratio. However, this will not improve the signal-to-noise ratio if you are using a capillary will a small inner diameter (like 25 µm ID), or if you are using a background electrolyte with a low to medium conductivity (like MES/His or acetic acid, for example).
 +
 +
You may find it difficult to stop the liquid leaking out of this reference capillary. This procedure adds complication and can be fiddly, so can only be recommended if you really need to boost the sensitivity of your C4D.

Revision as of 19:26, 9 August 2017

How do I get the best sensitivity (the lowest limits of detection) from my C4D?

You need to develop a method for detecting your analyte using contactless conductivity detection, including which background electrolyte to use. It’s best to start by seeing if anybody has done it before, by looking through review research papers such as 1, 2, 3, 4, 5 and 6.

Then, you should optimise the C4D settings (amplitude, frequency and headstage gain) for the background electrolyte you are using. The easiest way to do this is to use the C4D Profiler software. You can download it from here and look at the instructions and video.

My C4D headstage has two holes in it. Which hole should I use for my capillary/tubing?

C4D headstages have two holes or guide tubes. You can push your capillary/tube into either guide tube, it really doesn’t matter. The guide tube you push your capillary into will act as the detecting tube and the empty one will act as a reference tube. One signal is taken away from the other, and this helps to reduce stray capacitance.

This is NOT a twin detector; You cannot push a capillary into each guide tube and expect to record two different signals.

If you wish to obtain the best sensitivity from your headstage (increase the signal-to-noise ratio), and have already perfected your experimental method and optimised the C4D settings (amplitude, frequency and headstage gain), you try the following: dilute your background electrolyte by 10% (90% background electrolyte and 10% distilled water), fill it into a short length of capillary/tube, and push it into the empty guide tube. Do not use undiluted (100%) background electrolyte, as this will balance the bridge in the headstage and can lead to strange signals.

This has been observed to increase the signal-to-noise ratio. However, this will not improve the signal-to-noise ratio if you are using a capillary will a small inner diameter (like 25 µm ID), or if you are using a background electrolyte with a low to medium conductivity (like MES/His or acetic acid, for example).

You may find it difficult to stop the liquid leaking out of this reference capillary. This procedure adds complication and can be fiddly, so can only be recommended if you really need to boost the sensitivity of your C4D.