Theory

  1. L. Drahos and K. Vékey, J. Mass Spectrom. 36, 237 (2001) (This paper describes the theory of MassKinetics)

Applications

  1. L. Drahos, R. M. A. Heeren, C. Collette, E. D. Pauw and K. Vékey, J. Mass Spectrom 34, 1373 (1999) (MassKinetics was used to determine the shape of internal energy distribution of ions formed in an electrospray ion source)
  2. L. Drahos and K. Vékey, J. Mass Spectrom. 34, 79-84 (1999) (A study of the role of effective temperature in the kinetic method using MassKinetics)
  3. L. Drahos and K. Vékey, J. Am. Soc. Mass Spectrom. 10, 323-328 (1999) (An application to determine thermal internal energies and internal energy distributions using an early version of MassKinetics)
  4. P. D. Thomas, R. G. Cooks, K. Vékey, L. Drahos and C. Wesdemiotis, J. Phys. Chem. A 104, 1359-1361 (2000) (Calculation of the kinetic method plot using MassKinetics for several alcohols based on molecular parameters, and comparing the results to experimental data determined by Holmes et al.)
  5. L. Wua, J. W. Denault, R.G. Cooks, L. Drahos and K. Vékey, J. Am. Soc. Mass Spectrom., 13, 1386-1393 (2002) (Modeling CID fragmentation of NaClRb+ cluster ion: Calculation of effective temperature and survival yield as a function of collisional energy transfer and pressure of collision gas)
  6. Z. Takáts, L. Drahos, G. Schlosser and K. Vékey, Anal. Chem, 74(24); 6427-6429 (2002): Feasibility of Formation of Hot Ions in Electrospray (Modeling the effect of collisional cooling using different collision gases)
  7. László Drahos, Judit Sztáray and Károly Vékey, International Journal of Mass Spectrometry, In Press, Theoretical calculation of isotope effects, kinetic energy release and effective temperatures for alkylamines

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