separation science, in collaboration with shimadzu, is pleased to present a series of application notes demonstrating recent advances in water analysis. simply click on the buttons to download your own copy.
a high sensitivity method for quantitative determination of ten phenols in surface water on lc/ms/ms with apci interface
this application note describes an mrm-based method for detection and quantitation of phenol and nine substituted phenols in reservoir water, without pre-treatment and pre-concentration. coupled with a pentafluorophenyl column, treated water and reservoir water were analysed on a triple quadrupole lc/ms/ms with an apci interface.
quantitative analysis of residual artificial sweeteners in surface water by highly sensitive lc/ms/ms method
this application note describes an lc/ms/ms method for direct quantitation of artificial sweeteners in surface water and drinking water. using the triple quadrupole system lcms-8060 coupled with a biphenyl column, trace levels of artificial sweeteners in surface water could be detected without pre-treatment or enrichment.
a highly sensitive mrm-based method for detection and quantitation of seven
pharmaceuticals and personal care products (ppcps) in surface water
this application note describes a high sensitivity detection method for the detection of
pharmaceuticals and personal care products (ppcps) in surface water that does not require pre-treatment and concentration of water samples. the method uses a model of triple quadrupole lcms-8060 system coupled with the nexera uhplc; enabling a fast gradient elution program with a pentafluorophenyl (pfp) column.
high-sensitivity analysis of nonylphenol in river water using gc-ms/ms
in this application note, a method using a high selectivity triple quadrupole gas chromatography-mass spectrometer (gc-ms/ms) to detect for np in river water is presented. using this method, it was possible to detect for 13 nonylphenol isomers standard solutions at a concentration of 0.01 µg/ml.
related educational resources from shimadzu
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