2016-6. How Does It Work? Part II: Mixing and Degassing
Different techniques of liquid chromatography (LC) mobile-phase mixing can give different results and have different problems. LCGC 34(6) 400-407 (2016) John W. Dolan
Read More →Different techniques of liquid chromatography (LC) mobile-phase mixing can give different results and have different problems. LCGC 34(6) 400-407 (2016) John W. Dolan
Read More →Why should you be concerned about mobile-phase degassing — it’s all done automatically, isn’t it? LCGC 32(7) 482-487 (2014) John W. Dolan
Read More →Preventive maintenance compressed. LCGC 26(4) 352-358 (2008) John W. Dolan
Read More →A full measure of tips for reliable gradient methods. LCGC 23(9) 1008-1012 (2005) John W. Dolan
Read More →Better a little extra than not enough. LCGC 21(10) 968-972 (2003) John W. Dolan Acknowledgement: Lisa McAdam, Stephen Brown
Read More →How can you reduce baseline noise? LCGC 20(2) 114-119 (2002) John W. Dolan
Read More →Inadequate mobile-phase degassing may be the single largest cause of LC problems LCGC 17(10) 908-912 (1999) John W. Dolan
Read More →Ghost peaks are one of liquid chromatography’s most aggravating problems LCGC 16(2) 112-118 (1998) Yoshihiro Egi and Atsuro Ueyanagi
Read More →Retention time instability creates frustrating problems. LCGC 15(9) 826-830 (1997) John W. Dolan
Read More →Routine maintenance will extend the life of your pump, a vital module in any liquid chromatography system. LCGC 15(2) 110-113 (1997) John W. Dolan erratum: sidebar should read 1% and 2% for pump specifications, not 0.1% and 0.2% (printed in 15(4))
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