Recent developments in resonance ionization mass spectrometry for ultra-trace analysis of actinide elements

Resonance ionization mass spectrometry is an efficient tool to detect minute amounts of long-lived radio-isotopes in environmental samples. Applying resonant excitation and ionization with pulsed laser radiation within a hot cavity atomizer enables the sensitive detection and precise quantification of long-lived actinide isotopes. Due to the inherently element selective ionization process, this method ensures ultimate suppression of contaminations from other elements and molecules. The characterization of in-source resonance ionization of the actinide elements U, Th, Np, and Am using a compact quadrupole mass spectrometer (QMS) setup are discussed.

Combating selective ionization in the high resolution mass spectral characterization of complex mixtures

Here, we describe three separations that can help overcome selective ionization in the analysis of petroleum samples.

Hydrazinonicotinic acid derivatization for selective ionization and improved glycan structure characterization by MALDI-MS

Selective ionization and improved glycan structure characterization by MALDI-MS were achieved through derivatization of glycans by hydrazinonicotinic acid under different acid catalysis.