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Syntheses and Reactivity Studies of Transition Metal Complexes Containing Chelating Amido Ligands

1. Benzene C-H Activation by Nickel(II) and Platinum(II) Complexes of Chelating Diarylamido Phosphine Ligands
We have demonstrated an efficient intermolecular benzene C-H activation process mediated by Ni(II) complexes of ([Me-NP-iPr]Ni(L)(R)(L = Pyridine, 2,4-Lutidine, PMe3) and [iPr-NP-Ph]Ni(PMe3)(R) (R = Me, CH2SiMe3). When Lewis base is PMe3 or substituent is CH2SiMe3 more reactivity is observed. The amido diphosphine complexes [iPr-PNP]PtOTf effectively activate the benzene C-H bond in the presence of an appropriate Lewis base(NEt3 or DABCO).
2. Metal Complexes of Amido Phosphine Ligand Bearing Unsymmetric Donor Atom: Syntheses, Structures and Reactivities
A series of [Ph-PNN]Ni(II)R (R = Me, Et, Ph, CH2Ph) complexes containing £]-hydrogen atoms have been prepared and characterizated. We have demonstrated an efficient intermolecular arene C-H activation process mediated by Ni(II) complexes of [Ph-PNN]NiEt at elevated temperature. A series of nickel(II) complexes featuring an unsupported, covalently bound p-donor ligand including anilide, phenolate, thiophenolate and tert-butoxide derivatives have been prepared and characterizated. Novel unsymmetric tridentate ligands (H[R-PNO], R = iPr, Ph) have been prepared and characterized. The reaction of [iPr-PNO]NiCl with Na/Hg in thf or ether at room temperature induced C-O bond activation followed by the generation of {[iPr-PNO]Ni}{[iPr-PNO*]NiMe}.
3. Amido Diphosphine Complexes of Cobalt: Syntheses, Structures and Reactivities
A series of paramagnetic divalent cobalt complexes ([R-PNP]CoCl, R = iPr, Cy) supported by tridentate diarylamido phosphine ligands have been prepared and characterized. The diamagnetic monovalent cobalt-dinitrogen complexes ([R-PNP]Co(N2), R = iPr, Cy) are accessible from the reaction of [R-PNP]CoCl with LiHBEt3 in THF solution. The dinitrogen complex [Cy-PNP]Co(N2) reacts in THF with terminal alkynes, HC¡ÝCR, yielding vinylidene complexes ([Cy-PNP]Co=C=C(H)(R), R = Ph, SiMe3). The dinitrogen complex [Cy-PNP]Co(N2) and {[iPr-PNP]Co}2(£g-N2) reacts in THF with diphenylacetylene (PhC¡ÝCPh) yielding p complexes ([R-PNP]Co(h2-PhC¡ÝCPh), R = iPr, Cy).
4. Fluorinated Mono- and Diarylamido Complexes of Lithium and Group 4 Metals
The synthesis of bis-ligand Group 4 metal complexes ([iPrAr-NF]2MCl2, M= Zr, Hf) are utilizing [iPrAr-NF]Li and MCl4(THF)2. The alkylation of [iPrAr-NF]2MCl2 with RMgCl (R= Me, iBu, PhCH2, Me3SiCH2) produced a series of group 4 metal complexes ([iPrAr-NF]2MR2, M= Zr, Hf) which are catalyst precursors for olefin polymerization. Deprotonation of H[iPr-NF] and H[Cy-NF] with n-BuLi in ethereal solutions at -35 ¢XC produced the lithium complexes {[iPr-NF]Li(solv)}2 (solv = THF, Et2O) and {[Cy-NF]Li(Et2O)}2, respectively. The metathetical reaction of [iPr-NF]Li(Et2O) with 1/3 equiv TiCl4(THF)2 in toluene solution produced the trianilide titanium complex [iPr-NF]3TiCl. A series of novel fluorinated bidentate (H[Mes-NP-RF], R = iPr, Ph) and tridentate ligands (H2[Mes-NPNF]) have been prepared and characterizated.

Identiferoai:union.ndltd.org:NSYSU/oai:NSYSU:etd-1229108-195957
Date29 December 2008
CreatorsLee, Wei-Ying
ContributorsTeng-Yuan Dong, Lan-Chang Liang, Liang-Shiu Lee, Michael Yen-Nan Chiang, Tsu-Hsin Chang
PublisherNSYSU
Source SetsNSYSU Electronic Thesis and Dissertation Archive
LanguageCholon
Detected LanguageEnglish
Typetext
Formatapplication/pdf
Sourcehttp://etd.lib.nsysu.edu.tw/ETD-db/ETD-search/view_etd?URN=etd-1229108-195957
Rightsnot_available, Copyright information available at source archive

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