Análise conformacional de alguns: α-etiltio-, α-etilsulfinil-, e α-etilsulfonil- acetatos de fenila p-substituídos; 2-(2-etiltioacetil)furanos- e 2-(2-etiltioacetil)tiofenos-5-substituídos; 2-(2-bromoacetil)tiofenos-5-substituídos / Conformational analysis of some: α-ethylthio-, α- ethylsulfinyl-, α-ethylsulfonyl-, p-substituted phenylacetates; 1-(5-substituted thiophen-2-yl)-2-(ethylthio)ethanone and 1-(5-substituted furan-2-yl)-2- (ethylthio)ethanone; 1-(5-substituted thiophen-2-yl)-2-(bromo)ethanone

Rodrigues, Daniel Nopper Silva

04 April 2014

A presente tese trata da síntese e análise conformacional dos: α-etiltioacetatos de fenila p-substituídos (Série I), α-etilsulfinilacetatos de fenila p-substituídos (Série II), α- etilsulfonilacetatos de fenila p-substituídos (Série III); 2-(2-etiltioacetil)furanos e 2-(2-etiltioacetil)tiofenos 5-substituídos (Série IV) e 2-(2-bromoacetil)tiofenos 5- substituídos (Série V). O estudo foi efetuado através da análise da banda de estiramento da carbonila (vCO) no infravermelho, em solventes de constante dielétrica crescente, apoiada por cálculos teóricos. Houve uma boa correlação entre os resultados espectroscópicos e teóricos, indicando, para todas as séries, a existência de equilíbrio conformacional. Foi constatado através de cálculos B3LYP que os confôrmeros dos compostos das séries I-III possuem o ângulo diedro α (O=C-C-S) exclusivamente na geometria gauche, em decorrência das interações orbitalares, σCS→π*CO, π*CO→σ*CS e πCO→σ*CS. Adicionalmente, todos os compostos das séries I-III possuem um significativo efeito de solvente. Em relação à série I a diferença entre os três confôrmeros obtidos reside principalmente na parte alifática das moléculas i.e. na posição do grupo etila em relação ao oxigênio carbonílico. Na série II, três confôrmeros foram encontrados sendo que dois são estabilizados por uma interação eletrostática entre o oxigênio sulfinílico e o hidrogênio orto do anel aromático, OSO δ-...Hδ+, enquanto o outro é estabilizado por uma interação entre o oxigênio carbonílico e o hidrogênio orto do anel aromático, OCO δ-...Hδ+. Na série III, dois confôrmeros foram encontrados, sendo a diferença entre eles a posição do grupo etila em relação à carbonila. Em relação à série IV, foram encontrados, através de cálculos M05-2X, dois confôrmeros gauche em relação ao ângulo diedro α (O=C-C-S), tanto para os furanos quanto para os tiofenos, residindo a diferença entre eles no ângulo δ (O=C-C-X; X = O, S) i.e. sinperiplanar ou antiperiplanar. No caso da série V, foram encontrados, em fase gasosa, quatro confôrmeros, dois cis e dois gauche em relação ao ângulo diedro α (O=C-C-Br) sendo que cada um pode ser sinperiplanar ou antiperiplanar em relação ao ângulo δ (O=C-C-S). Cumpre ressaltar que os cálculos de energia de solvatação, SM5.42R, auxiliaram na atribuição dos confôrmeros obtidos através dos cálculos DFT aos componentes das bandas de vCO resolvidas analiticamente. / This thesis reports the conformational analysis of α-ethylthio p-substituted phenylacetates (I series), α-ethylsulfinyl p-substituted phenylacetates (II series), α- ethylsulfonyl p-substituted phenylacetates (III series); 1-(5-substituted thiophen-2-yl)- 2-(ethylthio)ethanone and 1-(5-substituted furan-2-yl)-2-(ethylthio)ethanone (IV series) and 1-(5-substituted thiophen-2-yl)-2-(bromo)ethanone (V series). The study was carried out through the analysis of the carbonyl stretching band (vCO), in solvents of increasing dielectric constant, supported by theoretical calculations. A good correlation between the spectroscopic and theoretical data was found, indicating for all series the existence of conformational equilibrium. The B3LYP calculations indicated that all conformers obtained for I-III series displays the α dihedral angle (O=C-C-S) in a gauche geometry, arising from the σCS→π*CO, π*CO→σ*CS and πCO→σ*CS orbital interactions. Additionally, all compounds from I-III series have a pronounced solvent effect. Concerning to I series the main difference between the three obtained conformers lie on the aliphatic moiety of the molecule i.e. on the ethyl group position relative to that of the carbonyl group. In the II series three conformers were found, being two conformers stabilized by an electrostatic interaction between the sulfinyl oxygen and the ortho hydrogen of the aromatic ring, OSO δ-...Hδ+, while the other one is stabilized by an electrostatic interaction between the carbonyl oxygen and the ortho hydrogen of the aromatic ring, OCO δ-...Hδ+. As for III series, two conformers were found, being the main difference between them the ethyl group position relative to that of the carbonyl. As for the IV series, M05-2X calculations showed the existence of two gauche conformers concerning the α dihedral angle (O=C-C-S), for both furan and thiophene derivatives, lying the difference between them on the δ dihedral angle (O=CC- X; X = O, S) i.e. syn-periplanar or anti-periplanar. In the case of the V series, four conformers were found in gas phase, being two cis and two gauche with respect to the α dihedral angle (O=C-C-Br) as each pair may assume a syn-periplanar or anti-periplanar geometry relative to the δ dihedral angle (O=C-C-S). It is noteworthy that the solvation calculations, SM5.42R, supported the attribution of the conformers, obtained through DFT calculations to the resolved components of the IR vCO band.

Análise conformacional

Cálculos teóricos

Conformational analysis

Espectroscopia no infravermelho

Infrared spectroscopy

Theoretical calculations

Theoretical and Experimental Study of Cooperativity Effects in Noncovalent Interactions

Estarellas Martín, Carolina

07 September 2012

L’any 2002 tres grups de recerca, entre ells el nostre grup, van demostrar teòricament que la interacció entre anions i anells aromàtics electrodeficients, anomenada interacció anió–, era favorable. Des de llavors s’ha dut a terme un intens estudi de la seva naturalesa física fins la total comprensió. Aquesta tesi es basa amb l’estudi de la interacció anió– des de tres punts de vista. Primerament, la investigació es basa en el disseny teòric de motius estructurals per donar lloc a un receptor on la interacció anió– siga molt favorable, per posteriorment avaluar la força de la interacció experimentalment en dissolució. A continuació, es va analitzar la interrelació entre un gran nombre de combinacions d’interaccions no covalents. A partir d’aquest estudi es defineixen nous conceptes i es proposen diferents formules per calcular efectes de cooperativitat. Finalment, hem anat un pas més enllà en l’estudi de la interacció analitzant: 1) l’impacte de la interacció anió– a sistemes biològics; 2) la influència de modificacions a l’anió sobre la naturalesa física de la interacció. / In 2002 three research groups, among them our research group, theoretically demonstrated that the interaction between anions and electron-deficient aromatic rings, named anion– interaction, was favourable. Since then, an intense study of its physical nature has been performed to understand it completely. This thesis is based on the study of the anion– interaction from three points of view. Firstly, theoretical design of binding units to build a receptor and to obtain the most favourable binding based on anion– interactions. The binding properties of these receptors have been experimentally assessed in solution. Secondly, we have studied the interplay between a great combination of noncovalent interactions. From this study, new concepts and formula to calculate cooperativity effects have been described. Finally, we have study one step further the anion– interaction analysing: 1) the impact of anion– interaction in biological systems; 2) how the modifications in the anion influence the physical nature of the interaction.

Química Orgànica

54 - Química

547 - Química orgànica