New cluster species of the type (HCN)
m
(NH3)
n
H+ with m up to 4 and n up to 7 alongwith (NH3)
n
H+ species are observed using mass spectrometry, on the reaction of carbon vapor with jet-cooled NH3 in admixture with helium. The most preponderant species correspond to m=1 and 2, viz. (HCN)1(NH3)4H+, (HCN)1(NH3)3H+ and (HCN)2(NH3)3H+. These clusters involving the tetrahedral coordination in the first solvation shell of the NH4
+ ion are the most stable species, as corroborated by molecular-orbital calculations. The incremental complexation energy due to successive addition of the NH3 molecule to (HCN)(NH3)
n
H+, decreases monotonically with increasing n, for n>2.
H. B. Singh, Louis J. Salas, D. Herlth, E. Czech, W. Viezee, Q. Li, Daniel J. Jacob, Donald R Blake, G. W. Sachse, Charles N. Harward, R. Stephen Hipskind
H. B. Singh, Louis J. Salas, D. Herlth, R. Kolyer, E. Czech, W. Viezee, Q. Li, Daniel Jacob, Donald R Blake, G. W. Sachse, Charles N. Harward, Henry E. Fuelberg, Christopher M. Kiley, Y. Zhao, Y. Kondo
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