Author: Mark Stephen MashutaPublisher:
ISBN:
Category :
Languages : en
Pages : 520
Book Description
Synthesis, Characterization and Properties of Transition Metal Complexes of Multidentate Polyimidazole and Schiff Base Ligands
Author: Mark Stephen MashutaPublisher:
ISBN:
Category :
Languages : en
Pages : 520
Book Description
Synthesis, Characterization and Properties of Transitional Metal Complexes of Multidentate Polyimidazole and Schiff Base Ligands: Active Site Models for Binuclear Metalloproteins
Author: Mark Stephen MashutaSynthesis and Characterization of Transition Metal Complexes with Schiff Base Ligands
Author: Synthesis and Characterization of 3d Transition Metal Complexes with Schiff Base Ligands
Author: Synthesis, Characterization, and Reactivity of Transition Metal Complexes Containing Multi-donor Ligands
Author: John C. LinehanSynthesis, Spectral Characterization and Toxicity Activity of 3d Transition Metal Complexes with Schiff Base Ligands
Author: Transition Metal Complexes with Di(pentadienyl) Ligands
Author: Weiqing WengPublisher:
ISBN:
Category : Ligands
Languages : en
Pages : 424
Book Description
Transition Metal Complexes with Multidentate Phosphorous/nitrogen Ligands. Synthesis, Characterization and Reactivity
Author: Sergio Santiago RozenelPublisher:
ISBN:
Category :
Languages : en
Pages : 256
Book Description
Abstract Transition metal complexes with multidentate phosphorous/nitrogen ligands. Synthesis, characterization and reactivity. By Sergio Santiago Rozenel Doctor in Philosophy in Chemistry University of California, Berkeley Professor John Arnold, Chair Chapter 1: Chromium complexes supported by the multidentate monoanionic ligand [N2P2] {H[N2P2] = tBuN(H)SiMe2N(CH2CH2PiPr2)2} are presented, and the activity of these complexes towards ethylene oligomerization/polymerization is examined. The complexes [N2P2]CrCl2 (1) and [N2P2]CrCl (2) polymerized ethylene after activation with MAO. Derivatives of 1 and 2 were synthesized in order to gain insights about the active species in the ethylene oligomerization/polymerization processes. The alkyl complexes [N2P2]CrMe (3), [N2P2]CrCH2SiMe3 (4) and [N2P2]Cr(Cl)CH2SiMe3 (5), the cationic species {[N2P2]CrCl}BF4 (7), {[N2P2]CrCl}BPh4 (8) and {[N2P2]CrCH2SiMe3}BF4 (9), and the Cr(II) complex [N2P2]CrOSO2CF3 (11) were not active ethylene oligomerization/polymerization catalysts in absence of an activator. Reaction of 1 with two equivalents of MeLi led to reduction to 3. However, with one equivalent of MeLi the stable mixed alkyl-halide derivative [N2P2]Cr(Cl)Me (6) was obtained. Reaction of 2 with Red-Al® produced the hydride ([N2P2]Cr)2(ì-H)2 (10), which reacted with CO to produce the Cr(I) complex [N2P2]Cr(CO)2 (12). Reduction of 2 with KC8 in the presence of p-tolyl azide produced the dimeric cis μ-imido ([N2P2]Cr)2(ì-NC7H7)2 (13). A similar reduction in the presence of ethylene resulted in the isolation of the Cr(III) metallacyclohexane compound [N2P2]CrC4H8 (14). Chapter 2: A series of Co, Ni and Cu complexes with the ligand HN(CH2CH2PiPr2)2 (HPNP) has been isolated and their electrochemical behavior investigated by cyclic voltammetry. The nickel complexes [(HPNP¬)NiOTf]OTf and [(HPNP)NiNCCH3](BF4)2 display reversible reductions, as does the related amide derivative (NP2)NiBr. Related copper(I) and cobalt(II) derivatives were isolated and characterized. Addition of piperidine to [(HNP2)NiNCCH3](BF4)2 led to the formation of the new species [(HPNP)Ni(N(H)C(CH3)NC5H10)](BF4)2. Nucleophilic addition of piperidine to acetonitrile to produce HN=C(CH3)NC5H10 was catalyzed by [(HPNP)NiNCCH3](BF4)2. Chapter 3: A series of bimetallic ruthenium complexes [HPNPRu(N2)]2(μ-Cl)2](BF4)2 (2), [(HPNPRu(H2)Cl)2(μ-Cl)2](BF4)2 (3), [(HPNPRu)2(μ-H2NNH2)(μ-Cl)2](BF4)2 (4), [(HPNPRu)2(μ-Cl)2(μ-HNNPh)](BF4)2 (5), [HPNPRu(NH3)(ç2-N2H4)](BF4)Cl (6), [(HNP2Ru)2(μ-Cl)2(μ2-OSO2CF3)]OSO2CF3 (7), [HPNPRu]2(μ-Cl)3]BPh4 (8) and [HPNPRu]2(μ-Cl)3]BF4 (9) were isolated and characterized in the course of reactions aimed at studying the reduction of N2 and hydrazine. Complex 4 produces ammonia catalytically from hydrazine, and complex 2 generates ammonia upon reaction with Cp2Co/HLuBF4. DFT calculations support the idea that the diazene complex formed is more stable than the expected Chatt-type intermediate. Chapter 4: The reduction chemistry of cobalt complexes with the PNP ligand was explored. Reaction of (HPNP)CoCl2 (1) with n-BuLi generated the deprotonated Co(II) product (PNP)CoCl (2), and the Co(I) reduced species (HPNP)CoCl (3). The reaction of complex 2 with KC8 was investigated, where it was found that the products obtained depended upon the inert gas used to carry out the reaction: (PNP)CoN2 (4) under N2, bimetallic complex [(PNP)Co]2 (5) under Ar, and (HPNP)Co(H)3 (8) under H2. Complex 5 reacted with H2 to generate the bimetallic complex [(PNP)CoH]2 (6). With H2, H3SiPh and AgBPh4 complex 3 generated the species (HPNP)CoCl(H)2 (9), (HPNP)CoCl(H)SiH2Ph (10) and [(HPNP)CoCl]BPh4 (11) respectively. DFT calculations were performed to gain insights about the transformations observed.
Synthesis Of Transition Metal Complexes Of Isoxazole Schiff Bases
Author: Y. PrashanthiPublisher: LAP Lambert Academic Publishing
ISBN: 9783659487880
Category :
Languages : en
Pages : 164
Book Description
Schiff bases occupy a pride place both in organic and inorganic chemistry, as they have wide applications in many biological aspects. Metal complexes of Schiff bases have occupied a central role in the development of coordination chemistry. Schiff base transition metal complexes are one of the most adaptable and thoroughly studied systems. Isoxazoles are biologically active and have considerable medicinal value. A wide range of biological activities of Isoxazole derivatives include pharmacological properties such as hypoglycemic, antiinflammatory, antibacterial, anticancer and also agrochemical properties like herbicidal, soil fungicidal activity and have applications as pesticides and insecticides. Isoxazole and its derivatives were found to be physiologically active and also found applications in pharmaceuticals because of their resemblance with pyrazole. In view of the above, it was thought worthwhile to study the synthesis, characterization, formation constants and antimicrobial activity of metal complexes of isoxazole Schiff bases
Synthesis, Characterization and Physical Properties of Transition Metal Complexes of Benzimidazole, Imidazole and Pyridine Ligands
Author: Robert Joseph O'BrienPublisher:
ISBN:
Category :
Languages : en
Pages : 404
Book Description