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Elektrostatička svojstva atoma sumpora u derivatima tiosemikarbazida / Electrostatic properties of the sulfur atom in the thiosemicarbazide derivatives

<p>U ovoj doktorskoj disertaciji izloženi su rezultati&nbsp;analize eksperimentalno i teorijski dobijene&nbsp;raspodele gustine naelektrisanja dva derivata&nbsp;tiosemikarbazida, 4-metil-3-tiosemikarbazida&nbsp;(MeTSC) i 4-metil-3-tiosemikarbazon 2-piridinformamida (TSC4). &nbsp;Analiza&nbsp;eksperimentalno dobijene gustine naelektrisanja je&nbsp;zasnovana&nbsp; na preciznim &nbsp;podacima dobijenim&nbsp;difrakcijom rendgenskog zračenja visoke&nbsp;rezolucije. Teorijska istraživanja bazirana su na&nbsp;teorijskim strukturnim faktorima dobijenim&nbsp;primenom programa CRYSAL09 polazeći od&nbsp;geometrije&nbsp; molekula određene nakon multipol&nbsp;utačnjavanja eksperimentalno dobijene gustine&nbsp;naelektrisanja. Za opisivanje eksperimentalne i&nbsp;teorijske ukupne elektronske gustine kori&scaron;ćen je&nbsp;Hansen-Coppens-ov multipol-model.&nbsp; Takođe je&nbsp;urađena i topolo&scaron;ka analizahemijskih veza i&nbsp;interakcija &nbsp;i ispitivana su elektrostatička svojstva&nbsp;atoma sumpora.</p><p>Analizom eksperimentalne gustine&nbsp;naelektrisanja kristalnih struktura MeTSC i TSC4&nbsp;uočeno je da deformaciona gustina slobodnih&nbsp;elektronskih parova S atoma ima &nbsp;oblik torusa, da&nbsp;je unutar njega raspodela elektronske gustine&nbsp;nehomogena i da položaj samog torusa može biti&nbsp;ortogonalan (SalTSC) ili pod uglom (MeTSC,&nbsp;<br />TSC4).&nbsp; Na osnovu raspodele deformacione&nbsp;gustine i elektrostatičkog potencijala, kao &nbsp;i na&nbsp;osnovu topolo&scaron;ke analize ukupne eksperimentalne&nbsp;gustine naelektrisanja &rho;<sub>ktv</sub>&nbsp; i njenog Laplasijana &nabla;<sup>2</sup>&rho;<sub>ktv</sub> zaključeno je da atom sumpora ima izrazitu&nbsp;fleksibilnost i sposobnost da prilagodi svoju&nbsp;elektronsku gustinu slobodnih elektronskih &nbsp;parova&nbsp;prostornom rasporedu donornih grupa koje&nbsp;učestvuju u interakcijama sa S akceptorom.&nbsp; U&nbsp;kristalnim strukturama MeTSC i TSC4 utvrđeno&nbsp;je da S atom istovremeno gradi četiri, odnosno&nbsp;prosečno &scaron;est međumolekulskih interakcija.</p><p>U cilju upotpunjavanja eksperimentalnih&nbsp;rezultata analizirana je teorijski dobijena gustina&nbsp;naelektrisanja oba molekula, a zatim su ispitivane&nbsp;karakteristike sumpora kao akceptora i to u&nbsp;sistemima različite složensti polazeći od&nbsp;izolovanih monomera, preko izdvojenih dimer do&nbsp;kristalnogokruženja. Ovom analizom je utvrđeno&nbsp;da se simultanim angažovanjem S atoma u vi&scaron;e&nbsp;interakcija ne umanjuje njegova akceptorska&nbsp;sposobnost.</p><p>Vodonične vezekoje uključuju S akceptor su&nbsp;ispitivane sa aspekta &nbsp;energijskih svojstava dimera&nbsp;koji suprisutni u MeTSCi TSC4, kaoi u dodatno&nbsp;konstruisanim&nbsp; sistemima&nbsp; MeTSC/MeOH&nbsp; i&nbsp;aceton/MeOH. Energijske&nbsp; karakteristike&nbsp; su&nbsp;proučavane u pogledu elektrostatičke energije&nbsp;interakcije (E<sub>es</sub>) i kohezione energije(E<sub>coh</sub>). Za&nbsp;<br />dva odabrana&nbsp; MeTSC/MeOH i aceton/MeOH&nbsp;sistema je primenjena metoda &nbsp;kuplovanih klastera&nbsp;kao&scaron;to&nbsp; je&nbsp;<em> ab initio</em>&nbsp; CCSD(T)&nbsp; metod.&nbsp; Za&nbsp;MeTSC/MeOH sistem je &nbsp;urađena potpuna&nbsp;optimizacija i za tako dobijenu ravnotežnu&nbsp;geometriju je izračunata energija sistema&nbsp;∆E<sub>CCSD(T),CBS</sub>.</p> / <p>In this dissertation the analysis of the experimental and theoretically obtained electron &nbsp;density of two derivatives of thiosemicarbasides, 4-methyl-3-thiosemicarbaside (MeTSC) and 4-methyl-3-thiosemikabazone 2-piridinformamide (TSC4) are presented.&nbsp; The analysis of experimentally obtained electron density is based on &nbsp;accurate X-ray diffraction data of high resolution. Theoretically calculated electron densities are obtained from periodic quantum mechanical calculation using CRYSTAL09 and the accurate structural parameters from high resolution X-ray&nbsp;experiment. For the description of the theoretical and experimental electron density the Hansen-Coppens multipol model was used. Further topological analysis of chemical bonds and interactions was performed in order to explain the electrostatic properties of sulfur.</p><p>In this work it has been observed that in the experimentally obtained electron density of the MeTSC and TSC4 crystal structures, the deformational electron density of sulfur free electron pairs forms a toroidal shape. Further, this torus is not homogeneously filled but shows pronounced local accumulations and its position can be either orthogonal (like in SalTSC) or tilted (MeTSC, TSC4). Based on the distribution of the&nbsp;deformational electron&nbsp; density and electrostatic potential, as well as the topological analysis of the total electron density &rho;<sub>ktv</sub> and its Laplasian &nabla;<sup>2</sup>&rho;<sub>ktv&nbsp;</sub>it can be concluded that the S atom has a remarkable flexibility and ability to adapt his deformation electron density of free electron pairs into toruses corresponding to the position of donor groups surrounding him. In the crystal structures of MeTSC and TSC4 it was determined that the S atom participates in four and six interactions, respectively.</p><p>In order to supplement&nbsp; the experimentally obtained results a theoretically calculated electron density of both molecules (MeTSC and TSC4) was performed and the properties of the S atom as a hydrogen acceptor have been studied. The analysis was &nbsp;performed on systems of various complexity, starting with isolated monomers, then on &nbsp;dimers and up to the whole crystal packing. From this work it has been concluded that &nbsp;the acceptor capabilities of the S atom are not diminished with the increasing number &nbsp;of interactions.&nbsp;&nbsp;&nbsp;&nbsp;</p><p>The hydrogen bonding involving thioureido S&nbsp;acceptor is also investigated in terms of the energetic properties of the MeTSC and TSC4 dimers existing in the crystal structure, and additional MeTSC/MeOH and acetone/MeOH systems. Energetic features were thoroughly studied through electrostatic interactions energies (E<sub>es</sub>) and &nbsp;cohesive energies (E<sub>coh</sub>). For two selected MeTSC/MeOH and acetone/MeOH systems an ab initio approach&nbsp;employing the coupled-cluster singles and doubles augmented by a perturbational correction for connected triple excitations (CCSD(T)) method were applied. Finaly, for MeTSC/MeOH system full geometry optimization was &nbsp;performed and for resulting equilibrium geometry the energy of the system (∆E<sub>CCSD(T),CBS</sub>) was calculated.</p>

Identiferoai:union.ndltd.org:uns.ac.rs/oai:CRISUNS:(BISIS)95697
Date10 December 2015
CreatorsFrancuski Bojana
ContributorsNovaković Slađana, Vojinović-Ješić Ljiljana, Leovac Vukadin, Bogdanović Goran, Ostojić Bojana
PublisherUniverzitet u Novom Sadu, Prirodno-matematički fakultet u Novom Sadu, University of Novi Sad, Faculty of Sciences at Novi Sad
Source SetsUniversity of Novi Sad
LanguageSerbian
Detected LanguageEnglish
TypePhD thesis

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