Enhancement of a Lewis acid-base interaction via solvation: ammonia molecules and the benzene radical cation
| Autor: | Chi-Tung Chiang, James F. Garvey, Marek Freindorf, Thomas R. Furlani, John P. Richard, Robert L. DeLeon |
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| Rok vydání: | 2007 |
| Předmět: |
Hydrogen
Hydrogen bond Inorganic chemistry chemistry.chemical_element Benzene Hydrogen Bonding Alkalies Ring (chemistry) Solutions Ammonia chemistry.chemical_compound Crystallography chemistry Radical ion Models Chemical Cations Solvents Molecule Lewis acids and bases Physical and Theoretical Chemistry Acids |
| Zdroj: | The journal of physical chemistry. A. 111(27) |
| ISSN: | 1089-5639 |
| Popis: | The interaction between ammonia and the benzene radical cation has been investigated by gas-phase studies of mass selected ion clusters {C(6)H(6)-(NH(3))(n=0-8)}(+) via tandem quadrupole mass spectrometry and through calculations. Experiments show a special stability for the cluster ion that contains four ammonias: {C(6)H(6)(NH(3))(4)}(+). Calculations provide evidence that the first ammonia forms a weak dative bond to the cyclohexadienyl radical cation, {C(6)H(6)-NH(3)}(+), where there is a transfer of electrons from ammonia to benzene. Additional solvating ammonia molecules form stabilizing hydrogen bonds to the ring-bound ammonia {C(6)H(6)-NH(3)}(+).(NH(3))(n), which cause cooperative changes in the structure of the cluster complex. Free ammonia is a weak hydrogen bond donor, but electron transfer from NH(3) to the benzene ring that strengthens the dative bond will increase the hydrogen acidity and the strength of the cluster hydrogen bonds to the added ammonia. A progressive "tightening" of this dative bond is observed upon addition of the first, second, and third ammonia to give a cluster stabilized by three N-(+)H x N hydrogen bonds. This shows that the energetic cost of tightening the dative bond is recovered with dividends in the formation of stable cluster hydrogen bonds. |
| Databáze: | OpenAIRE |
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