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The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
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1	Complexos de zinco(II) contendo ligantes hidrotris(pirazolil)borato altamente impedidos : síntese, reatividade e estrutura no estado sólido Klitzke, Joice Sandra January 2009 (has links) A química de coordenação e reatividade dos complexos de zinco(II) contendo ligantes mono aniônicos hidrotris(pirazolil)borato substituídos por grupos 3,3,3 - mesitil (TpMs) e 3,3,5 - mesitil (TpMs) foram investigadas. A metátese dos sais Tl[TpMs] ou Tl[TpMs] com ZnCl2, ZnEt2, e Zn(OAc)2 permitiu a formação dos compostos correspondentes puros TpMsZnCl, TpMsZnEt, TpMsZnEt e TpMsZnOAc. O composto TpMsZnEt, lentamente, desproporcionou-se em solução de benzeno para produzir o complexo bis(ligante) (k²-TpMs)2Zn. Alternativamente, o complexo TpMsZnOAc, como também TpMsZnOCOPh e [TpMsZnOAc]2 foram preparados por acidólise dos complexos análogos TpMsZnEt e TpMsZnEt com o correspondente ácido carboxílico. Não foi observada reação entre TpMsZnEt e TpMsZnEt com os álcoois (ROH; R = Me, Et, iPr, Bn), enquanto que as reações de metátese de Tl[TpMs] com ZnEt(OR) levaram à formação do complexo TpMsZnEt, ao invés do complexo desejado zinco-alcóxido. Compostos TpMsZnCl, TpMsZnEt, TpMsZnEt, TpMsZnOAc, TpMsZnOCOPh, [TpMsZnOAc]2 foram caracterizados por análise elementar, espectroscopia de RMN de ¹H e ¹³C, e TpMsZnCl, TpMsZnEt, TpMsZnOAc, (k²-TpMs)2Zn e [TpMsZnOAc]2 por estudos de difração de raio-X. Os compostos TpMsZnCl, TpMsZnEt, TpMsZnOAc e (k²-TpMs)2Zn adotaram uma estrutura monomérica no estado sólido enquanto que o composto [TpMsZnOAc]2 existe como um dímero em ponte anti-sin por grupos acetato. O complexo (k2-TpMs)2Zn é tetracoordenado, representando um raro modo de coordenação bidentado dos ligantes TpMs. Os resultados foram racionalizados em termos da restrição estérea, que envolve o átomo de zinco, causada pelos ligantes TpMs e TpMs. / The coordination chemistry and reactivity of zinc(II) complexes supported by monoanionic hydrotris(pyrazolyl)borate ligands substituted by 3,3,3-mesityl groups (TpMs) and 3,3,5-mesityl groups (TpMs) have been investigated. Salt metathesis of ZnCl2, ZnEt2, and Zn(OAc)2 with Tl[TpMs] or Tl[TpMs] cleanly afforded the corresponding compounds TpMsZnCl, TpMsZnEt, TpMsZnEt and TpMsZnOAc. Compound TpMsZnEt slowly disproportionates in benzene solution to afford the bis(ligand) complex (k²-TpMs)2Zn. Acetate complex TpMsZnOAc as well as TpMsZnOCOPh and [TpMsZnOAc]2 were alternatively prepared by acidolysis of the parent ethyl complexes with the corresponding carboxylic acid. No reaction was observed between TpMsZnEt and TpMsZnEt and alcohols (ROH; R = Me, Et, iPr, Bn), while salt metathesis reactions of ZnEt(OR) with Tl[TpMs] led to TpMsZnEt instead of the desired zincalkoxide complex. Compounds TpMsZnCl, TpMsZnEt, TpMsZnEt, TpMsZnOAc, TpMsZnOCOPh, [TpMsZnOAc]2 were characterized by elemental analysis, ¹H and ¹³C NMR spectroscopy, as well as by X-ray diffraction studies for TpMsZnCl, TpMsZnEt, TpMsZnOAc, (k²-TpMs)2Zn and [TpMsZnOAc]2. The former compounds adopt a monomeric structure in the solid state while [TpMsZnOAc]2 exists as an anti-syn bridged acetate dimer. Complex (k2-TpMs)2Zn is fourcoordinated, featuring a rare bidentate coordination mode of the TpMs* ligands. The results are rationalized in terms of the variable steric constraint around the zinc atom provided by the TpMs and TpMs* ligands. Complexo de zinco Boratos Pirazol Química de coordenação : Reatividade
2	Complexos de zinco(II) contendo ligantes hidrotris(pirazolil)borato altamente impedidos : síntese, reatividade e estrutura no estado sólido Klitzke, Joice Sandra January 2009 (has links) A química de coordenação e reatividade dos complexos de zinco(II) contendo ligantes mono aniônicos hidrotris(pirazolil)borato substituídos por grupos 3,3,3 - mesitil (TpMs) e 3,3,5 - mesitil (TpMs) foram investigadas. A metátese dos sais Tl[TpMs] ou Tl[TpMs] com ZnCl2, ZnEt2, e Zn(OAc)2 permitiu a formação dos compostos correspondentes puros TpMsZnCl, TpMsZnEt, TpMsZnEt e TpMsZnOAc. O composto TpMsZnEt, lentamente, desproporcionou-se em solução de benzeno para produzir o complexo bis(ligante) (k²-TpMs)2Zn. Alternativamente, o complexo TpMsZnOAc, como também TpMsZnOCOPh e [TpMsZnOAc]2 foram preparados por acidólise dos complexos análogos TpMsZnEt e TpMsZnEt com o correspondente ácido carboxílico. Não foi observada reação entre TpMsZnEt e TpMsZnEt com os álcoois (ROH; R = Me, Et, iPr, Bn), enquanto que as reações de metátese de Tl[TpMs] com ZnEt(OR) levaram à formação do complexo TpMsZnEt, ao invés do complexo desejado zinco-alcóxido. Compostos TpMsZnCl, TpMsZnEt, TpMsZnEt, TpMsZnOAc, TpMsZnOCOPh, [TpMsZnOAc]2 foram caracterizados por análise elementar, espectroscopia de RMN de ¹H e ¹³C, e TpMsZnCl, TpMsZnEt, TpMsZnOAc, (k²-TpMs)2Zn e [TpMsZnOAc]2 por estudos de difração de raio-X. Os compostos TpMsZnCl, TpMsZnEt, TpMsZnOAc e (k²-TpMs)2Zn adotaram uma estrutura monomérica no estado sólido enquanto que o composto [TpMsZnOAc]2 existe como um dímero em ponte anti-sin por grupos acetato. O complexo (k2-TpMs)2Zn é tetracoordenado, representando um raro modo de coordenação bidentado dos ligantes TpMs. Os resultados foram racionalizados em termos da restrição estérea, que envolve o átomo de zinco, causada pelos ligantes TpMs e TpMs. / The coordination chemistry and reactivity of zinc(II) complexes supported by monoanionic hydrotris(pyrazolyl)borate ligands substituted by 3,3,3-mesityl groups (TpMs) and 3,3,5-mesityl groups (TpMs) have been investigated. Salt metathesis of ZnCl2, ZnEt2, and Zn(OAc)2 with Tl[TpMs] or Tl[TpMs] cleanly afforded the corresponding compounds TpMsZnCl, TpMsZnEt, TpMsZnEt and TpMsZnOAc. Compound TpMsZnEt slowly disproportionates in benzene solution to afford the bis(ligand) complex (k²-TpMs)2Zn. Acetate complex TpMsZnOAc as well as TpMsZnOCOPh and [TpMsZnOAc]2 were alternatively prepared by acidolysis of the parent ethyl complexes with the corresponding carboxylic acid. No reaction was observed between TpMsZnEt and TpMsZnEt and alcohols (ROH; R = Me, Et, iPr, Bn), while salt metathesis reactions of ZnEt(OR) with Tl[TpMs] led to TpMsZnEt instead of the desired zincalkoxide complex. Compounds TpMsZnCl, TpMsZnEt, TpMsZnEt, TpMsZnOAc, TpMsZnOCOPh, [TpMsZnOAc]2 were characterized by elemental analysis, ¹H and ¹³C NMR spectroscopy, as well as by X-ray diffraction studies for TpMsZnCl, TpMsZnEt, TpMsZnOAc, (k²-TpMs)2Zn and [TpMsZnOAc]2. The former compounds adopt a monomeric structure in the solid state while [TpMsZnOAc]2 exists as an anti-syn bridged acetate dimer. Complex (k2-TpMs)2Zn is fourcoordinated, featuring a rare bidentate coordination mode of the TpMs* ligands. The results are rationalized in terms of the variable steric constraint around the zinc atom provided by the TpMs and TpMs* ligands. Complexo de zinco Boratos Pirazol Química de coordenação : Reatividade
3	Complexos de zinco(II) contendo ligantes hidrotris(pirazolil)borato altamente impedidos : síntese, reatividade e estrutura no estado sólido Klitzke, Joice Sandra January 2009 (has links) A química de coordenação e reatividade dos complexos de zinco(II) contendo ligantes mono aniônicos hidrotris(pirazolil)borato substituídos por grupos 3,3,3 - mesitil (TpMs) e 3,3,5 - mesitil (TpMs) foram investigadas. A metátese dos sais Tl[TpMs] ou Tl[TpMs] com ZnCl2, ZnEt2, e Zn(OAc)2 permitiu a formação dos compostos correspondentes puros TpMsZnCl, TpMsZnEt, TpMsZnEt e TpMsZnOAc. O composto TpMsZnEt, lentamente, desproporcionou-se em solução de benzeno para produzir o complexo bis(ligante) (k²-TpMs)2Zn. Alternativamente, o complexo TpMsZnOAc, como também TpMsZnOCOPh e [TpMsZnOAc]2 foram preparados por acidólise dos complexos análogos TpMsZnEt e TpMsZnEt com o correspondente ácido carboxílico. Não foi observada reação entre TpMsZnEt e TpMsZnEt com os álcoois (ROH; R = Me, Et, iPr, Bn), enquanto que as reações de metátese de Tl[TpMs] com ZnEt(OR) levaram à formação do complexo TpMsZnEt, ao invés do complexo desejado zinco-alcóxido. Compostos TpMsZnCl, TpMsZnEt, TpMsZnEt, TpMsZnOAc, TpMsZnOCOPh, [TpMsZnOAc]2 foram caracterizados por análise elementar, espectroscopia de RMN de ¹H e ¹³C, e TpMsZnCl, TpMsZnEt, TpMsZnOAc, (k²-TpMs)2Zn e [TpMsZnOAc]2 por estudos de difração de raio-X. Os compostos TpMsZnCl, TpMsZnEt, TpMsZnOAc e (k²-TpMs)2Zn adotaram uma estrutura monomérica no estado sólido enquanto que o composto [TpMsZnOAc]2 existe como um dímero em ponte anti-sin por grupos acetato. O complexo (k2-TpMs)2Zn é tetracoordenado, representando um raro modo de coordenação bidentado dos ligantes TpMs. Os resultados foram racionalizados em termos da restrição estérea, que envolve o átomo de zinco, causada pelos ligantes TpMs e TpMs. / The coordination chemistry and reactivity of zinc(II) complexes supported by monoanionic hydrotris(pyrazolyl)borate ligands substituted by 3,3,3-mesityl groups (TpMs) and 3,3,5-mesityl groups (TpMs) have been investigated. Salt metathesis of ZnCl2, ZnEt2, and Zn(OAc)2 with Tl[TpMs] or Tl[TpMs] cleanly afforded the corresponding compounds TpMsZnCl, TpMsZnEt, TpMsZnEt and TpMsZnOAc. Compound TpMsZnEt slowly disproportionates in benzene solution to afford the bis(ligand) complex (k²-TpMs)2Zn. Acetate complex TpMsZnOAc as well as TpMsZnOCOPh and [TpMsZnOAc]2 were alternatively prepared by acidolysis of the parent ethyl complexes with the corresponding carboxylic acid. No reaction was observed between TpMsZnEt and TpMsZnEt and alcohols (ROH; R = Me, Et, iPr, Bn), while salt metathesis reactions of ZnEt(OR) with Tl[TpMs] led to TpMsZnEt instead of the desired zincalkoxide complex. Compounds TpMsZnCl, TpMsZnEt, TpMsZnEt, TpMsZnOAc, TpMsZnOCOPh, [TpMsZnOAc]2 were characterized by elemental analysis, ¹H and ¹³C NMR spectroscopy, as well as by X-ray diffraction studies for TpMsZnCl, TpMsZnEt, TpMsZnOAc, (k²-TpMs)2Zn and [TpMsZnOAc]2. The former compounds adopt a monomeric structure in the solid state while [TpMsZnOAc]2 exists as an anti-syn bridged acetate dimer. Complex (k2-TpMs)2Zn is fourcoordinated, featuring a rare bidentate coordination mode of the TpMs* ligands. The results are rationalized in terms of the variable steric constraint around the zinc atom provided by the TpMs and TpMs* ligands. Complexo de zinco Boratos Pirazol Química de coordenação : Reatividade

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