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Hyperconjugation in the alkyl substituted cyclopropyl methyl ketonesBice, Vernon Melvin, 1921- January 1949 (has links)
No description available.
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Hyperconjugative Interactions in SilylanilinesJung, Il Nam 05 1900 (has links)
The purpose of the present work is to study the bonding interactions between the substituents and the ring π system for a series of ortho and para MeₙH₃₋ₙM (M = C or Si, n = 0-3) substituted N,N-dimethylaniline . Both ground and excited-state interactions were studied and their magnitudes determined. The experimental data were then used in conjunction with molecular orbital calculations to differentiate among inductive, hyperconjugative, and d-pπ interactions on the ground and excited states. Overall, the study indicates that d orbital involvement in the interactions of organosilicon substituents with unsaturated systems is much less significant than is generally held. The importance of pₛᵢ⁻π and pₛᵢ⁻π* hyperconjugative interactions between silicon σ* orbitals and π system in producing the effects of silicon substitution on unsaturated systems has become more apparent.
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Computational study of the C-CI bond lengthReznickova, Anna. January 2010 (has links)
Honors Project--Smith College, Northampton, Mass., 2010.
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Conjugation in Organic Group 14 Element Compounds : Design, Synthesis and Experimental EvaluationEmanuelsson, Rikard January 2014 (has links)
This thesis focuses on the chemical concept of conjugation, i.e., electron delocalization, and the effect it has on electronic and optical properties of molecules. The emphasis is on electron delocalization across a saturated σ-bonded segment, and in our studies these segments are either inserted between π-conjugated moieties or joined together to form longer chains. The electronic and optical properties of these compounds are probed and compared to those of traditionally π-conjugated compounds. The investigations utilize a combination of qualitative chemical bonding theories, quantum chemical calculations, chemical syntheses and different spectroscopic methods. Herein, it is revealed that a saturated σ-bonded segment inserted between two π-systems can have optical and electronic properties similar to a cross-conjugated compound when substituents with heavy Group 14 elements (Si, Ge or Sn) are attached to the central atom. We coined the terminology cross-hyperconjugation for this interaction, and have shown it by both computational and spectroscopic means. This similarity is also found in cyclic compounds, for example in the 1,4-disilacyclohexa-2,5-dienes, as we reveal that there is a cyclic aspect of cross-hyperconjugation. Cross-hyperconjugation can further also be found in smaller rings such as siloles and cyclopentadienes, and we show on the similarities between these and their cross-π-conjugated analogues, the fulvenes. Here, this concept is combined with that of excited state aromaticity and the electronic properties of these systems are rationalized in terms of “aromatic chameleon” effects. We show that the optical properties of these systems can be rationally tuned and predicted through the choice of substituents and knowledge about the aromaticity rules in both ground and excited states. We computationally examine the relation between conjugation and conductance and reveal that oligomers of 1,4-disilacyclohexa-2,5-dienes and related analogues can display molecular cord properties. The conductance through several σ-conjugated silicon compounds were also examined and show that mixed silicon and carbon bicyclo[2.2.2]octane compounds do not provide significant benefits over the open-chain oligosilanes. However, cyclohexasilanes, a synthetic precursor to the bicyclic compounds, displayed conformer-dependent electronic structure variations that were not seen for cyclohexanes. This allowed for computational design of a mechanically activated conductance switch.
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Bridge Mediated Electron Transfer in Conjugated and Cross-Conjugated Donor-Acceptor CompoundsGöransson, Erik January 2012 (has links)
Detailed understanding of electron transfer reactions is important in many aspects of chemistry, biology and solar energy conversion. The main aim of this thesis is to provide further insight into electron transfer through highly conjugated bridge structures. Towards this end, three series of donor-acceptor dyads have been studied, all using an oligo(1,4-phenylene-ethynylene) moiety as the bridge. A common theme in these series is that they explore the effects of having either an ethynylene or phenylene as the attachment group between the bridge and the donor or acceptor. Photophysical characterization of these dyads was carried out by means of time resolved laser spectroscopy. The results show that having an ethynylene as attachment group results in higher rates for bridge mediated electron and energy transfer compared to similar systems, where a phenylene was used. It was also found that most of the investigated systems show a fast back electron transfer. A notable exception is a zinc(II) phthalocyanine- gold(III) porphyrin dyad, where very fast photoinduced electron transfer (kPET = 1.0×1012 s-1) was followed by relatively slow back electron transfer (kBET = 1.0×109 s-1). A complementary DFT investigation indicated that the charge shifted state involves a reduction of the gold ion, rather than the porphyrin ring. This results in lower electronic coupling between the reduced gold porphyrin and the bridge and thus slower back electron transfer. A series of zinc porphyrin platinum acetylide dyads was used to explore the effects on electronic coupling of different attachments points on the porphyrin ring. For the investigated system it was found that linking at the meso-position results in an eight-fold increase in electron transfer rate compared to the β-position. In addition, a series of mixed valence compounds was used to investigate electronic coupling mediated by cross-hyperconjugated or cross-π-conjugated bridges. The results indicate coupling elements of 100-400 cm-1, with the cross-π-conjugated bridge having the largest coupling. A complementary TD-DFT study indicates that both through bond and through space coupling can be active in these systems. The relative contribution of these two mechanisms to the electronic coupling is highly conformer dependent.
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Estudo experimental de teórico das constantes de acoplamento n ANTPOT. ('J IND. ch') (n= 1,2,3) em adamantanos substituídos / Experimental and theoretical study of n ANTPOT. ('J IND. ch') (n= 1,2,3) spin-spin coupling constants in substituted adamantaneSilva, Caio Ricardo Faiad da, 1987- 20 August 2018 (has links)
Orientador: Roberto Rittner Neto / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-20T02:42:28Z (GMT). No. of bitstreams: 1
Silva_CaioRicardoFaiadda_M.pdf: 3324014 bytes, checksum: 2a09da96b3179c4cc07eb8d6923bcdd1 (MD5)
Previous issue date: 2011 / Resumo: A introdução da dissertação consiste na breve descrição da racionalização de acoplamentos JCH (n = 1, 2 e 3), das etapas de cálculos teóricos e das duas técnicas recentemente implementadas no IQ-Unicamp: HSQC-TOCSY-IPAP e IPAP-HSQMBC. A primeira parte da seção Resultados e Discussão trata da determinação experimental dos acoplamentos nos derivados de adamantano. Na parte que aborda as constantes calculadas é mostrado que não há necessidade de alto rigor teórico nos cálculos de otimização de geometria para moléculas rígidas em estudos de constante de acoplamento. As estruturas otimizadas nos níveis de teoria PM3 e B3LYP não apresentaram diferenças nos parâmetros geométricos e nem nas constantes de acoplamento teóricas. Sendo assim, o tempo para a obtenção dos resultados utilizando o método PM3 é drasticamente diminuído. A última parte dos Resultados e Discussão consiste na racionalização os JCH. A introdução do substituinte no adamantano não provoca modificação estrutural e por isso as variações das JCH são atribuídas às interações hiperconjugativas. O aumento do JCßHß para todos os derivados e devido a interação do substituinte com o sCC ou sCC*. Já para os JCaHb e JCaHg é observado que para os substituintes CN, C(O)CH3 e C(O)NH2 a interacao sCaCb n*CO ou sCaCb n*CN, que retira densidade eletrônica do caminho do acoplamento, não permitem que haja aumento nessas constantes. Para os demais substituintes as interações NXs*CaCb, que aumenta a densidade eletrônica do caminho do acoplamento, são os responsaveis pelo aumento desse acoplamento / Abstract: In the Introduction section, there are short descriptions of the: a) rationalization of spin-spin couplings JCH (n = 1, 2 e 3); b) the steps of theoretical calculations; and c) two NMR experiments recently implemented at IQ-UNICAMP: HSQC-TOCSY-IPAP and IPAP-HSQMBC. The first part of Results and Discussion approaches the experimental determination of the spin-spin coupling constants (SSCC) in adamantane derivatives. The second part approaches theoretical spin-spin coupling constants. In this part is shown that isn ft necessary high precision in theoretical calculations of geometry optimization for studies of spin-spin coupling constants in rigid molecules. The optimizated structures at PM3 and B3LYP level of theory present no difference geometrical parameters as well as the theoretical values of SSCC. The results lead a decrease in the computational efforts. The last part of Results and Discussion is about rationalization of JCH. The substituent in adamantane doesn ft cause structural changes, so the variations in JCH are attributed to hyperconjugation. The increase in JCßHß for all derivatives is due to interaction between substituent and C-C bond (sCC or sCC*). For the JCaHb and JCaHg is observed that for the CN, C(O)CH3 and C(O)NH2 substituents the interaction sCaCb n*CO ou sCaCb n*CN, which removes electronic density in coupling pathway, doesn ft allow no increase in these constants. For the others substituents interactions NXs*CaCb, which increases electronic density in coupling pathway, are responsible for the increase in these spin-spin coupling constants / Mestrado / Quimica Organica / Mestre em Química
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DISPOSITIFS MOLECULAIRES FONCTIONNELS A BASE ORGANOMETALLIQUEShaw-Taberlet, Jennifer 29 September 2006 (has links) (PDF)
Chapter 1.<br />1-Ethynyl-2-phenyltetramethyldisilanes HCºCSiMe2SiMe2C6H4-p-X [X = NMe2(1.1), Me (1.2), H (1.3), Br (1.4), CF3 (1.5)] are accessible from ClSiMe2SiMe2Cl, BrMgC6H4X and HCºCMgBr in a two step Grignard reaction. The crystal structure of 1.1 as determined by single crystal X-ray crystallography exhibits a nearly planar PhNMe2 moiety and an unusual gauche array of the phenyl and the acetylene group with respect to rotation around the Si-Si-bond. Full geometry optimization (B3LYP/6- 31+G**) of the gas phase structures of 1.1 and 1.3 affords minima for the gauche and the trans rotational isomers, both being very close in energy with a rotational barrier of only 3 – 5 kJ/mol. Experimental and calculated (time-dependent DFT B3LYP/TZVP) UV absorption data of 1.1 – 1.5 show pronounced electronic interactions of the HCºC- and the C6H4X p-systems with the central Si-Si bond.<br /><br />Chapter 2.<br />A family of [( 5-Cp*)Ru( 6-arene)]+ (Cp* = C5Me5) sandwich complexes of 1- and 1,4-substituted phenyl and naphthyl systems are described along with the regioselectivities of the reactions under various conditions. Finally, the (h 5-Cp*) Ru+ arenophile was found to act as a gate to the flow of electrons between para-substituted termini. When it is complexed onto the phenyl or A naphthyl ring, the gate is closed. On the contrary, when it is complexed onto the B naphthyl ring, the gate is open.<br /><br />Chapter 3.<br />Regioselective complexation reactions of the organoiron acetylide derivatives (h 2- dppe)(h 5-Cp*)Fe-C C-Ar (Ar = phenyl, 1-naphthyl; dppe = 1,2- bis(diphenylphosphino)ethane) with [(h 5-Cp*Ru(CH3CN)3][PF6] to afford heterobimetallic complexes formulated as [(h 2-dppe)(h 5-Cp*)Fe-C C-{(h 6-Ar)Ru(h 5- Cp*)}][PF6], were achieved. In the case of the FeII-RuII 1-naphthyl derivative, the (h 5-Cp*)Ru+ arenophile was complexed both onto the substituted ring and free rings of the acetylide 1-naphthyl linker. The first redox-driven h 6-h 6 inter-ring haptotropic migration of the (h 5-Cp*)Ru+ moeity was shown to occur. Crystal structures of all of the seven new iron acetylenes were resolved, including both haptotropomers of the naphthyl compound.<br /><br />Chapter 4.<br />The diorganoiron [{(h2-dpppe)(h5-Cp*)Fe-CC-}2(1,4-naphthyl)] (4.12) was synthesized in good yield in two steps via the vinylidene, and oxidation led to the mixed valence (MV) and iron(III)-iron(III) species in good to excellent yields. This exhaustive empirical study on the family of complexes 4.12[PF6]n (n = 0,1,2) includes a crystal structure for the case in which n = 2. This work clearly establishes good electronic and magnetic communication between the iron centers across the bis(ethynyl)naphthalene bridge. All empirical measurements of these naphthyl compounds reveal that their properties fall between those of known phenyl and anthracenyl derivatives. In some cases, the naphthyl derivative behaves as an average of the phenyl and anthracenyl complexes. For example, the comproportionation constant of the naphthyl species falls at the midpoint between those for the phenyl and anthracenyl compounds. The same is true for the UV absorption maxima in all three oxidation states (Fe[II]- Fe[II], MV, and Fe[III]- Fe[III]). The large electronic (2043 cm-1) and magnetic (-526 cm-1) coupling constants were determined via NIR spectroscopy and SQUID magnetometry, respectively. As for the heterotrinuclear species, the iron(II) acetylene, 4.14B[PF6] [{Cp*(dppe)Fe-C C}2-(h 6 – [1,4-napthyl])RuCp*](PF6), [Cp* = h 5 - C5Me5; Fe = FeII] was prepared in high yields with an adapted, regioselective synthesis via the trinuclear vinylidene. Complete characterization, including a crystal structure, of this sandwich complex reveals that the arenophile perturbs the organoiron ligand more in the bis(iron) than in the previously reported mono(iron) case.
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