Using mass spectrometry to identify and quantify contaminants in water samples by Craig Butt | 0 CommentsAccess to clean wholesome water is a basic human right. Humans have engineered incredible methods to collect, filter, purify, store and distribute water to billions of people worldwide, but does this mean that our water is completely safe to drink? Also, how do concentrations of water contaminants differ from source to source?
Fast and Simultaneous Analysis of Ethanol Metabolites and Barbiturates by SCIEX Community | 0 CommentsWhile most analytes in forensic applications analyze well with positive ionization, there are analytes that show better ionization efficiency with negative ionization, for example, acidic compounds. These analytes include ethanol metabolites such as ethyl glucuronide (ETG), ethyl sulfate (ETS), and the barbiturates such as amobarbital, butabarbital, butalbital, pentobarbital, phenobarbital, and secobarbital.
Using mass spectrometry to identify and quantify contaminants in water samples by Craig Butt | Blogs, Environmental / Industrial, Food / BeverageAccess to clean wholesome water is a basic human right. Humans have engineered incredible methods to collect, filter, purify, store and distribute water to billions of people worldwide, but does this mean that our water is completely safe to drink? Also, how do concentrations of water contaminants differ from source to source?
Fast and Simultaneous Analysis of Ethanol Metabolites and Barbiturates by SCIEX Community | Blogs, ForensicWhile most analytes in forensic applications analyze well with positive ionization, there are analytes that show better ionization efficiency with negative ionization, for example, acidic compounds. These analytes include ethanol metabolites such as ethyl glucuronide (ETG), ethyl sulfate (ETS), and the barbiturates such as amobarbital, butabarbital, butalbital, pentobarbital, phenobarbital, and secobarbital.