We have explored by means of ab initio molecular dynamics two Ionic Liquids based on the combination of the choline cation with deprotonated cysteine and aspartic acid anions. While the combination of the strong base choline with various other amino-acids leads to the formation of a highly ionized medium where proton transfer is negligible, the presence of additional protic functions on the SH and the COOH groups leads to an unexpected and interesting behavior and to a sizable migration of their acidic protons onto the NH2 basic terminals. As far as we know this is the first time that such proton migration, that in water leads to the well known zwitterionic form of aminoacids, is reported to take place in their ionized form. We analyze in details such dynamical effects using accurate ab initio molecular dynamics computations validated through comparison with X-ray diffusion data.
Unexpected proton mobility in the bulk phase of cholinium-based ionic liquids: New insights from theoretical calculations / Campetella, Marco; Montagna, Maria; Gontrani, Lorenzo; Scarpellini, Eleonora; Bodo, Enrico. - In: PHYSICAL CHEMISTRY CHEMICAL PHYSICS. - ISSN 1463-9076. - STAMPA. - 19:(2017), pp. 11869-11880. [10.1039/C7CP01050H]
Unexpected proton mobility in the bulk phase of cholinium-based ionic liquids: New insights from theoretical calculations
CAMPETELLA, MARCO;MONTAGNA, MARIA;GONTRANI, Lorenzo;Scarpellini, Eleonora;BODO, Enrico
2017
Abstract
We have explored by means of ab initio molecular dynamics two Ionic Liquids based on the combination of the choline cation with deprotonated cysteine and aspartic acid anions. While the combination of the strong base choline with various other amino-acids leads to the formation of a highly ionized medium where proton transfer is negligible, the presence of additional protic functions on the SH and the COOH groups leads to an unexpected and interesting behavior and to a sizable migration of their acidic protons onto the NH2 basic terminals. As far as we know this is the first time that such proton migration, that in water leads to the well known zwitterionic form of aminoacids, is reported to take place in their ionized form. We analyze in details such dynamical effects using accurate ab initio molecular dynamics computations validated through comparison with X-ray diffusion data.| File | Dimensione | Formato | |
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