Liquid Chromatography
Quadrupole Time-of-Flight Mass
Spectrometry: A Strategy for Optimization, Characterization, and Quantification
of Antioxidant Nitro Derivatives
posted on 2022-09-06, 12:10authored byKitmin Chen, Alexander S. Edgar, Camille H. Wong, Dali Yang
As an antioxidant, N-phenyl-β-naphthylamine
(PBNA) inhibits the activity of oxidants, such as NOx, to prevent the degradation of energetic materials. In the
presence of NOx, nitrated products can
be generated in the process potentially. To characterize nitrated
PBNA in a nontargeted analysis of complex samples as such, liquid
chromatography tandem quadrupole time-of-flight (LC-QTOF), as an excellent
analytic technique, is used due to its high resolution and sensitivity.
However, a systematic approach of instrumentation optimization, data
interpretation, and quantitative determination of products is needed.
Through a step-by-step evaluation of the instrumental parameters used
in the Q0, Q1, and Q2 compartments of LC-QTOF, optimal ion yields
of precursor ions and high-resolution MS2 fragmentation
spectra at low mass defects were obtained in both negative and positive
electrospray ionization modes. Through rationalization of the fragmentation
pathways and verification using theoretical masses, the mononitro
derivative of PBNA was accurately identified as N-(4-nitrophenyl)-naphthalen-2-amine and further confirmed using a
reference standard. Using strict criteria provided by the analytical
guidelines (e.g., SANTE), limit of quantitation, limit of detection,
and calibration were established for the quantitation of PBNA and
nitrated PBNA. From optimization to characterization and subsequent
quantification of the mononitro-PBNA derivative, for the first time,
the applicability of this strategy is demonstrated in the aged energetic
binders.