Bibliography for VH
  1. Oyewumi, K. J., Oluwadare, O. J., Sen, K. D., Babalola, O. A., "Bound state solutions of the Deng-Fan molecular potential with the Pekeris-type approximation using the Nikiforov-Uvarov (N-U) method", Journal of Mathematical Chemistry 51, 976-991 (2013). [link to article][13OyOlSe.ScH]
  2. Goel, S., Masunov, A. E., "Potential energy curves and electronic structure of 3d transition metal hydrides and their cations", Journal of Chemical Physics 129, 214302 (2008). [link to article][08GoMaxx.TiH]
  3. Koseki, S., Ishihara, Y., Fedorov, D. G., Umeda, H., Schmidt, M. W., Gordon, M. S., "Dissociation potential curves of low-lying states in transition metal hydrides. 2. Hydrides of groups 3 and 5", Journal of Physical Chemistry A 108, 4707-4719 (2004). [link to article][04KoIsFe.ScH]
  4. Harrison, J. F., Christopher, P. S., "Electronic structure of the dipositive transition metal hydrides ScH2+, TiH2+, VH2+, CrH2+ and MnH2+", Molecular Physics 96, 31-42 (1999). [link to article][99HaChxx.ScH]
  5. Barone, V., Adamo, C., "First-row transition-metal hydrides: A challenging playground for new theoretical approaches", International Journal of Quantum Chemistry 61, 443-451 (1997). [link to article][97BarAdxx.CrH]
  6. Vanzee, R. J., Li, S., Weltner, W., "V, Nb, and Ta hydride molecules in deuterium and rare‐gas matrices: Infrared and electron spin resonance spectra", Journal of Chemical Physics 102, 4367-4374 (1995). [link to article][95VaLiWe.VH]
  7. Chen, Y. M., Clemmer, D. E., Armentrout, P. B., "Gas-phase thermochemistry of VH and CrH", Journal of Chemical Physics 98, 4929-4936 (1993). [link to article][93ChClAr.CrH]
  8. Loades, S. D., Cooper, D. L., Gerratt, J., Raimondi, M., "On the bonding to transition metal atoms in low oxidation states", Journal of the Chemical Society, Chemical Communications, 1604-1606 (1989). [link to article][89LoCoGe.VH]
  9. Chong, D. P., Langhoff, S. R., Bauschlicher, C. W., Walch, S. P., "Theoretical dipole moments for the first‐row transition metal hydrides", Journal of Chemical Physics 85, 2850-2860 (1986). [link to article][86ChLaBa.CrH]
  10. Sallans, L., Lane, K. R., Squires, R. R., Freiser, B. S., "Generation and reaction of atomic metal anions in the gas phase. Determination of the heterolytic and homolytic bond energies for the vanadium, chromium, iron, cobalt, and molybdenum hydrides VH, CrH, FeH, CoH, and MoH", Journal of the American Chemical Society 107, 4379-4385 (1985). [link to article][85SaLaSo.VH]
  11. Peterman, D. J., Misemer, D. K., Weaver, J. H., Peterson, D. T., "Electronic structure of metal hydrides. VI. Photoemission studies and band theory of VH, NbH, and TaH", Physical Review B 27, 799-807 (1983). [link to article][83PeMiWe.VH]
  12. Walch, S. P., Bauschlicher, C. W., "CASSCF/CI calculations for first row transition metal hydrides: The TiH (4Φ), VH (5Δ), CrH (6Σ+), MnH (7Σ+), FeH (4,6Δ), and NiH (2Δ) states", Journal of Chemical Physics 78, 4597-4605 (1983). [link to article][83WalBau.CrH]
  13. Das, G., "A pseudopotential study of the iron‐series transition metal hydrides", Journal of Chemical Physics 74, 5766-5774 (1981). [link to article][81Das.FeH]
  14. Barnun, A., Pasternak, M., Barrett, P. H., "Iron hydrides formation in interstellar clouds", Astronomy and Astrophysics 87, 328-329 (1980). [link to article][80BaPaBa.FeH]
  15. Henderson, G. A., Das, G., Wahl, A. C., "Multiconfiguration studies of some low‐lying bound states of VH", Journal of Chemical Physics 63, 2805-2809 (1975). [link to article][75HeDaWa.VH]
  16. Scott, P. R., Richards, W. G., "On the ligand field effect of the H atom in TiH and VH", Journal of Physics B: Atomic, Molecular and Optical Physics 7, L347-L349 (1974). [link to article][74ScRixx.VH]
  17. Smith, R. E., "Diatomic hydride and deuteride spectra of the second row transition metals", Proceedings of the Royal Society of London A 332, 113-127 (1973). [link to article][73Smith.ScH]

The ExoMol bibliometrician is Olga Yurchenko