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GC column selection can impact chromatographic performance, sample throughput and capacity. Often, chemists opt for familiar columns or those specified in methods, missing better choices. Discover the principles of method optimization to improve separations and save hours on extraneous method run times, driving efficiency and productivity. https://bit.ly/3xMsirk

A perfect guide about GC Column. Let's talk about about GC columns and consumables. #PerkinElmer #GC #GCColumn

GC column selection can impact chromatographic performance, sample throughput and capacity. Often, chemists opt for familiar columns or those specified in methods, missing better choices for their application's needs. Discover the principles of method optimization to improve separations and save hours on extraneous method run times, driving efficiency and productivity. https://bit.ly/3xMsirk

GC column selection can impact chromatographic performance, sample throughput and capacity. Often, chemists opt for familiar columns or those specified in methods, missing better choices for their application's needs. Discover the principles of method optimization to improve separations and save hours on extraneous method run times, driving efficiency and productivity. https://bit.ly/3xMsirk

Discover the principles of method optimization to improve separations and save hours on extraneous method run times with GC Columns. #GC #column #PerkinElmer

In this PerkinElmer GC column selection guide, discover the principles of method optimization to improve separations and save hours on extraneous method run times, driving efficiency and productivity.

The next Step in preparative Liquid Chromatography For better separation Each parameter in the analytical LC is set and monitored very precisely. The temperature of the column is an essential factor for a good separation and is adjusted depending on the problem and analytes. In the preparative field, temperature control for columns has been thought of, but columns are only heated externally. For low flow rates in the analytical field this might be sufficient, but for preparative separations and high flow rates a lot of efficiency is lost when the mobile phase is not heated. - Lower mobile phase viscosity - Faster interaction with stationary phase - Lower system back pressure - Higher flowrates without loosing resolution - Shorter cycle times - Equalize the enthalpy of mixing solvents https://lnkd.in/dGcANjU

When collecting fractions during chromatography, delay time plays a critical role in ensuring sample accuracy. Knowing the fraction delay time informs you when to collect your molecules of interest. Having an accurate delay time means you can collect what you see in the detector precisely and accurately. Curious to know more about how delay time affects your chromatography results? Read our informative article on the topic here: https://bit.ly/41iP9HU #ChromatographyTips #FractionCollection #LabOptimization #DelayTime #ScienceMatters

Interesting article about how to deal with troubles caused by gas bubbles in HPLC

For better separation in preparative Liquid Chromatography Each parameter in the analytical LC is set and monitored very precisely. The temperature of the column is an essential factor for a good separation and is adjusted depending on the problem and analytes. In the preparative field, temperature control for columns has been thought of, but columns are only heated externally. For low flow rates in the analytical field this might be sufficient, but for preparative separations and high flow rates a lot of efficiency is lost when the mobile phase is not heated. - Lower mobile phase viscosity - Faster interaction with stationary phase - Lower system back pressure - Higher flowrates without loosing resolution - Shorter cycle times - Equalize the enthalpy of mixing solvents https://lnkd.in/eHek7sSb