Advances in inorganic chemistry. Volume sixty seven, NOx related chemistry /

NOx Related Chemistry is a volume of a series that presents timely and informative summaries of the current progress in a variety of subject areas within inorganic chemistry, ranging from bio-inorganic to solid state studies. This acclaimed serial features reviews written by experts in the field and...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Eldik, Rudi van (Editor ), Olabe, José A. (Editor ), Awasabisah, Dennis (Contribuidor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Waltham, Massachusetts : Academic Press, 2015.
Colección:Advances in inorganic chemistry ; Volume 67.
Temas:
Nitrogen oxides.
Chemistry, Inorganic.
Mineralogical chemistry.
Oxydes d'azote.
Chimie inorganique.
inorganic chemistry.
SCIENCE > Chemistry > Inorganic.
Mineralogical chemistry
Chemistry, Inorganic
Nitrogen oxides
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; NOx Related Chemistry; Copyright; Contents; Contributors; Preface; Chapter One: NOx Linkage Isomerization in Metal Complexes; 1. Introduction; 1.1. Modes of binding of NOx moieties in monometallic complexes; 1.1.1. Nitric oxide complexes; 1.1.2. NO2 complexes; 1.1.3. NO3 complexes; 1.2. Methods that induce linkage isomerization; 1.3. Techniques for detecting linkage isomers; 1.4. Factors that affect linkage isomerization; 2. Linkage Isomerism in Non-Porphyrin NOx Complexes; 2.1. Group 6 (Cr and Mo) complexes; 2.1.1. NO complexes; 2.1.2. NO2 complexes.
  • 2.2. Group 7 (Mn and Re) complexes2.2.1. NO complexes; 2.3. Group 8 (Fe, Ru, and Os) complexes; 2.3.1. NO complexes; 2.3.2. NO2 complexes; 2.3.3. NO3 complexes; 2.4. Group 9 (Co, Rh, and Ir) complexes; 2.4.1. NO complexes; 2.4.2. NO2 complexes; 2.5. Group 10 (Ni, Pd, and Pt) complexes; 2.5.1. NO complexes; 2.5.2. NO2 complexes; 3. Linkage Isomerism in NOx-Coordinated Metalloporphyrins; 3.1. Manganese NOx porphyrins; 3.2. Ruthenium and iron NOx porphyrin complexes; 3.3. Cobalt NOx porphyrins; 3.4. Hyponitrite complexes of transition metal porphyrins.
  • 2.1.4. Different reactivity of the L ligand trans to NO2.1.5. Other metal centers: Validity of the formal charge descriptions; 2.1.6. Frontier MOs; 2.2. Formation and dissociation of NO-complexes: Nitrosylations and denitrosylations; 2.2.1. Reactions with M(II) precursors (M=Fe, Ru): Proton-assisted dehydration of bound nitrite; 2.2.2. Reactions with high-spin M(III) precursors; 2.2.3. Reactions with low-spin, nonheme Fe(III) systems; 2.2.4. Nitrosylation of nitrile-hydratase and models; 2.2.5. Nitrosylation of low-spin Fe(III)-heme models, [FeIII(TMPS)(CN)(H2O)]4- and [FeIII(TMPS)(CN)2]5-
  • 2.2.6. Nitrosylations of other [FeIII(CN)5(Y)]n- complexes2.2.7. Nitrosylations with Ru(III) precursors; 2.2.8. Why is the release of NO so fast for the {FeIINO+} heme-nitrosyls?; 2.3. Electrophilic reactivity toward O-, N-, and S-binding nucleophiles; 2.3.1. General approach to electrophilic reactivity; 2.3.2. Correlation of nucleophilic rates with M(NO+)/M(NO) redox potentials; 3. Complexes with n=7; 3.1. Structure, spectroscopy, and electronic descriptions for 5- and 6-coordination. Total spin S=1/2 or 3/2. Alternative ... ; 3.1.1. Heme and nonheme 5C nitrosyls with S=1/2.

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