Chiral recognition in neutral and ionic molecular complexes / Reconnaissance chirale dans des complexes moléculaires neutres et ioniques

Sen, Ananya

20 September 2012

L'objectif principal de cette thèse est l’étude spectroscopique de molécules ou de complexes portant plusieurs centres chiraux en phase gazeuse, pour comprendre les effets de la stéréochimie sur leurs propriétés structurales. Des alcaloïdes dérivés de la Cinchonine ont été introduits intacts en phase gazeuse par ablation laser. Ils ont été étudiés en combinant un jet supersonique avec de la spectroscopie laser. Les deux pseudo-énantiomères Quinine et Quinidine ont montré des spectres électroniques et vibrationnels similaires, en accord avec leur structure similaire. Leurs propriétés en solution diffèrent davantage, comme le montrent les expériences de dichroïsme circulaire vibrationnel (VCD). Cette différence est encore plus marquée dans l’Hydroquinine et l’Hydroquinidine. Enfin la reconnaissance chirale a été étudiée dans des complexes ioniques dans un piège à ions. La stabilité des complexes formés entre S-camphre et les R et S-Alanine protonées indique une préférence homochirale. Cependant, l'énergie d'interaction calculée ainsi que les spectres IRMPD dans la région des empreintes digitales sont identiques. Le rôle des conformères plus hauts en énergie dans la reconnaissance chirale a été discuté. / The main objective of this thesis is a spectroscopic study of molecules or complexes bearing multiple chiral centres in the gas phase, to understand the effects of stereochemistry on their structural properties. Neutral cinchona alkaloids have been introduced intact in gas phase by laser-ablation. They have been studied by combining supersonic expansion with laser spectroscopy. The two pseudo-enantiomers Quinine and Quinidine show similar electronic and vibrational spectra, in line with similar structure. Their properties in solution differ more, as shown by Vibrational Circular Dichroism (VCD) experiments. This difference is further enhanced in Hydroquinine and Hydroquinidine. Lastly chiral recognition has been studied in ionic complexes in an ion trap. A homochiral preference has been shown in the stability of the complexes formed between S-Camphor and R and S protonated Alanine. However, the calculated interaction energy as well as the IRMPD spectrum in the fingerprint region are identical. The role of higher energy conformers in chiral recognition has been discussed.

Reconnaissance chirale

Ablation laser

Pseudo-énantiomères

Jet supersonique

Infrarouge multi-photonique(IRMPD)

Chiral Recognition

Laser ablation

Vibrational Circular Dichroism (VCD)

Pseudo-enantiomers

Supersonic Expansion

Chirální rozeznávání pomocí hmotnostní spektrometrie / Chiral recognition by mass spectrometry

Kosíková, Lenka

January 2012

Title: Chiral recognition by mass spectrometry Author: Bc. Lenka Kosíková Department: Department of Organic Chemistry Supervisor: doc. Mgr. Jana Roithová, Ph.D. This work is focused on the use of mass spectrometry as the analytical method for chiral recognition in the gas phase. We have examined formation of complexes (S and R) isomers [dimethyl-2,2'-dihydroxy-1,1'binaphthalene-3,3'-dicarboxylate] with sodium. Chiral effect for the fomation of sodium dimers is 1,34±0,06 and that for formation of trimers 2,38±0,22 in favor of the formation of homochiral complexes. Part of the work is devoted to the preparation of isotopically labeled ester [(R)-(−)- di(D3-methyl)-2,2'-dihydroxy-1,1'binaphthalene-3,3'-dicarboxylate]. Mixing of equimolar amounts of D3-(R) and unlabeled (S) isomers leads to the artificial racemate, while we can still distinguish the enantiomers using mass spectrometry. Another part represents the study of the complex formation between (S and R) isomers of [dimethyl-2,2'-dihydroxy-1,1'binaphthalene-3,3'-dicarboxylate] with the metal complex [(S,S)-1,5-diaza-cis-decalin]Cu(OH)I depending on the molar ratios in the solution. I have showed that the molar concetration of the catalyst in the solution plays an important role in the complex formation and that the ESI source spectra of...