Considerations for optimizing trapping conditions, such as flow rate and trapping volume, in nanoscale and microflow LC-MS.
On the impact of retentivity and characteristics of the stationary phases for reversed-phase proteomic separations and how you can use them to your advantage.
In this webinar, we discussed the transfer of chromatographic methods that occurs at many stages in the development and production of a product. Here are a few questions that we received but did not have time to answer during the information-rich hour.
What are the differences between micro-scale and conventional LC? Microflow (a.k.a. microscale) LC has been widely applied to proteomic research for years. Recently, as microflow LC-MS systems continue to evolve, more and more laboratories in… Read more >
Let’s face it. Microflow LC-MS is a challenge. Only a few do it well, and even fewer do it well consistently. And for those who have had success, their methods can completely fall apart when… Read more >