Electron Transfer. Shunichi FukuzumiЧитать онлайн книгу.

H₂ from oxalate with QuPh⁺–N incor...Scheme 7.20 The catalytic cycle for the photocatalytic hydrogen evolution with...

8 Chapter 8Figure 8.1 ORTEP drawing of [Ir^III(Cp^*)(4,4′‐OMe‐bpy)(OH₂)](OTf)₂ (3·(OTf)₂) w...Scheme 8.1 Catalytic cycle of the reduction of CO₂ with H₂ using [Ir^III(Cp^*)(4...Scheme 8.2 Acid–base equilibria of iridium aqua complexes (4–6).Figure 8.2 ORTEP drawing of 2. Hydrogen atoms are omitted for clarity. Selecte...Scheme 8.3 Catalytic cycle of the reduction of CO₂ with H₂ using [Ir^III(Cp^*)(4...Figure 8.3 pH Dependence of the formation rate (TOF) of formate in the catalyt...Figure 8.4 pH Dependence of the H₂ evolution rate (TOF) in the catalytic hydro...Figure 8.5 Plot of TOF vs. concentration of HCOOH and HCOOK mixture (HCOOH/HCO...Scheme 8.4 Catalytic cycle of the decomposition of HCOOH using [Ir^III(Cp^*)(4–(...Scheme 8.5 A dinuclear Ir(Cp^*) complex with 4,4′,6,6′‐tetrahydroxy‐2,2′‐bipyri...Figure 8.6 Crystal structure of [{Ir(Cp^*)(Cl)}₂(thbpym)]²⁺ [370]. C

H bond...Scheme 8.6 Catalytic mechanism for interconversion between NADH and H₂ with wa...Figure 8.7 Plot of TOF for catalytic hydrogen evolution vs. the concentration ...Figure 8.8 pH Dependence of the rate (TOF) of H₂ evolution in the oxidation of...Figure 8.9 Plot of TOF vs. the concentration of NAD⁺ in the catalytic hydr...Scheme 8.7 Formation of a hydride complex 7 in the hydrogenation of 6 with ali...Figure 8.10 Change in absorbance at λ = 350 nm due to formation of the hy...Scheme 8.8 Catalytic cycle of hydrogen evolution from ethanol using [Ir^III(Cp^* Scheme 8.9 Photoconversion from a hydride complex 7 to 9.Figure 8.11 Time course of hydrogen evolution from 2‐propanol (4.3 M) catalyze...Scheme 8.10 Catalytic cycles for decomposition of paraformaldehyde to H₂ and f...

9 Chapter 9Figure 9.1 ESR spectra of O₂·⁻/M²⁺ complexes (M²⁺ = Mg²⁺, CaFigure 9.2 (a) ESR spectrum observed after irradiation of an ¹⁷O (40%) oxygen‐...Scheme 9.1 Mⁿ⁺‐promoted electron transfer from (TPP)Co to O₂.Figure 9.3 Plots of log k _et vs. ΔE in Mⁿ⁺‐promoted electron transfer from ...Scheme 9.2 Mⁿ⁺‐promoted electron transfer from (TPP)Co to Q.Figure 9.4 Plots of log k _et vs. ΔE in electron transfer from (TPP)Co to O₂, pr...Figure 9.5 UV–visible absorption spectra of PQ (1.2 × 10⁻⁴ M) in the pre...Figure 9.6 (a) UV–visible absorption spectra of PTQ (2.0 × 10⁻³ M) in th...Figure 9.7 (a) EPR spectrum of PQ·⁻ produced by photoinduced electron tr...Figure 9.8 (a) EPR spectrum of PTQ·⁻ produced by photoinduced electron t...Figure 9.9 CVs of PQ (1.5 × 10⁻³ M) (a) in the absence of metal ion, and...Figure 9.10 Dependence of the positive shift in E _red (ΔE _red) of PQ in the pres...Figure 9.11 Plots of E _red of PQ (○) and PTQ (Δ) in the presence of Mⁿ⁺ (2....Scheme 9.3 Sc³⁺‐promoted electron transfer from (TPP)Co to PQ.Figure 9.12 Dependence of k _obs on [Sc(OTf)₃] for electron transfer from (TPP)C...Scheme 9.4 Mⁿ⁺‐promoted electron transfer from (AcrH)₂ to PTQ in MeCN.Figure 9.13 Dependence of k _obs on [Mⁿ⁺] for the electron transfer from (Ac...Figure 9.14 (a) Dependence of k _obs on [Sc(OTf)₃] for electron transfer from Ir...Figure 9.15 EPR spectra of an EtCN solution of Ir(ppy)₃ (2.3 × 10⁻⁴ M) a...Scheme 9.5 Proportionation equilibrium between QH₂ and Q in the presence of ScFigure 9.16 Absorption spectral changes of a deaerated EtCN solution of QH₂ (3...Figure 9.17 EPR spectra of a deaerated propionitrile solution of QH₂ (3.2 × 10Scheme 9.6 Formation of a chiral assembly [(NQ·⁻)₂–(Sc³⁺(R)‐pybox)₂]Figure 9.18 (a) Positive‐ion ESI mass spectrum of an MeCN solution of NQ (3.0 ...Figure 9.19 Absorbance at 633 nm for cycles of ET reduction of a deaerated MeC...Figure 9.20 The optimized structure of [(Q·⁻)₂–(Sc³⁺(R)‐pybox)₂]⁺...Scheme 9.7 Sc³⁺‐promoted electron transfer from (AcrH)₂ to TolSQ in MeCN.Figure 9.21 (a) EPR spectrum of TolSQ·⁻–Sc³⁺ produced by electron tr...Figure 9.22 Dependence of k _et on [Sc³⁺] for electron transfer from (AcrH)₂ Scheme 9.8 Two pathways in electron transfer from electron donors to TolSQ–Sc³...Figure 9.23 Plots of ln(k _et T ⁻¹) vs. T ⁻¹ for electron transfer from...Scheme 9.9 Mⁿ⁺‐promoted intramolecular electron transfer in a ferrocene–na...Figure 9.24 (a) CV of Fc–NQ (5.0 × 10⁻⁴ M) in deaerated MeCN containing ...Figure 9.25 Plots of ΔE _1/2 vs. log [Mⁿ⁺] for the one‐electron reduction of...Figure 9.26 (a) EPR spectrum of Fc⁺–NQ·⁻/Sc³⁺ (9.1 mM) produced ...Figure 9.27 Plots of log k _ET vs. −ΔG _ET in Mⁿ⁺‐promoted intramolecular elec...Scheme 9.10 Mⁿ⁺‐promoted intramolecular electron transfer in a ferrocene–n...Figure 9.28 Plots of −RT ln(k _ET[Mⁿ⁺]^−1/2) vs. ΔG _ET in Mⁿ⁺‐promot...Figure 9.29 (a) ORTEP drawing of Fc–Q. (b) Optimized structure of Ph–Q·⁻ Scheme 9.11 Photoinduced electron transfer from Fc to Q in the Fc–Q dyad, foll...Figure 9.30 CVs of (a) Fc–Q (0.5 mM) and (b) Fc–(Me)Q (0.5 mM) in MeCN contain...Scheme 9.12 Mⁿ⁺‐promoted electron transfer from Fc to Q in Fc–Q and Fc–(Me...Figure 9.31 Plots of log k _et vs. ΔE in Mⁿ⁺‐promoted electron transfer in F...Figure 9.32 Formation of a cycloadduct by the reaction of t‐BuBNAH and Q in th...Figure 9.33 Dependence of k _obs on [Sc³⁺] for (a) the cycloaddition reactio...Scheme 9.13 (a) Cycloaddition and (b) hydride transfer pathways via Mⁿ⁺‐pr...Figure 9.34 Crystal structures of (a) [Cu^IIZn^II(bdpi)(MeCN)₂](ClO₄)₃·2MeCN and...Figure 9.35 CVs of (a) [CuZn(bdpi)(MeCN)₂]³⁺ (1.0 mM) and (b) [Cu(MeIm(Py)Scheme 9.14 Formation of the O₂·⁻ complex with [Zn^II(MeIm(Me)₂)]²⁺.Figure 9.36 EPR spectra of (a) [Zn^II(O₂·⁻)(MeIm(Py)₂)]⁺ and (b) [Zn^I...Scheme 9.15 The catalytic cycle of the imidazolate‐bridged Cu^II–Zn^II heterodin...Scheme 9.16 Disproportionation of Q·⁻ with [CuZn(bdpi)(MeCN)₂]³⁺.Figure 9.37 Dependence of E _red of [(N4Py)Fe^IV(O)]²⁺ in MeCN at 298 K on lo...Scheme 9.17 Metal ion‐coupled electron‐transfer reduction of [(N4Py)Fe^IV(O)]²⁺...Figure 9.38 Plots of log k ₁(circles) and log k ₂ (squares) of MCET from ferro...Figure 9.39 (a) ORTEP‐style and (b) chemical structure of the Sc³⁺‐bound n...Scheme 9.18 Sc³⁺‐coupled electron‐transfer chain reactions for formation o...Figure 9.40 (a) UV–vis spectral changes showing the conversion from [(Bn‐TPEN)...Figure 9.41 DFT‐optimized structure of [(Bn‐TPEN)Mn^IV(O)−[Sc(OTf)₃]₂]²⁺, c...Figure 9.42 Dependence of E _red of [(N4Py)Mn^IV(O)]²⁺ (black circles) and [(...Scheme 9.19 Oxidation of a cobalt(III) complex to a cobalt(IV)‐oxo‐metal ion c...Figure 9.43 Dependence of E _red of [(N4Py)Fe^IV(O)]²⁺ on log [HOTf] (grey ci...Figure 9.44 Plots of k _obs vs. [HOTf] (black circles) and [DOTf] (grey circles)...Figure 9.45 UV–vis spectral changes observed in the titration of [(N4Py)Mn^IV(O...Figure 9.46 Dependence of E _red of [(N4Py)Mn^IV(O)]²⁺ on the concentration o...Figure 9.47 Plots of log k _obs for oxidation of toluene and thioanisole derivat...Figure 9.48 Plots of log k _ET for C

H bond cleavage of toluene derivatives and ...Scheme 9.20 Unified mechanism of oxidation of toluene and thioanisol derivativ...Figure 9.49 Electron‐transfer driving force (−ΔG _et) dependence of log k _ox for ...Figure 9.50 UV–vis spectra of [(TMC)Fe^III(O₂)]–Mⁿ⁺ complexes

Скачать книгу