Modern Flow Analysis
English[eng]
cholesterol||serum samples||lab-on-valve||automation||enzymatic reaction||neonicotinoid||thiacloprid||solid-phase spectroscopy||optosensor||luminescence||bioaccessibility||dog food||dog nutrition||dynamic extraction||flow analysis||kinetic profile||zinc||nuclear waste||spent nuclear fuel||ß-emitting nuclides||90Sr||flow injection||ICP-DRC-MS||flow synthesis||flow reactors||flow-injection analysis||flow techniques||radionuclides||radiochemical separation||environmental monitoring||nuclear emergency preparedness||radioactive waste characterization||medical isotope production||titration||Fe(III), Fe(II) determination||speciation analysis||Lab-In-Syringe||automation of sample pretreatment||potentials and troubles||system setup and operation modes||tips and tricks in method development||3D printing of instrument elements||histidine||random human urine||zone fluidics||o-phthalaldehyde||derivatization||stopped-flow||fluorimetry||SI-LAV||mono-segmented flow||in-line dilution||in-line single-standard calibration||in-line standard addition||albumin||glucose||creatinine||flow method||chitosan||catalyst particles||micron-size||sampling study||p-nitrophenol reduction||preconcentration||evaporation||sequential injection analysis||paired emitter–detector diode detector||contactless conductivity detector||flow-based analysis||simultaneous detection||sequential detection||flow chemistry