Heterogeneous Catalysts. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Техническая литература
Год издания: 0
isbn: 9783527813582
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in the electrochemica...

      9 Chapter 28Table 28.1 Elementary reactions of CO2RR producing methanol.Table 28.2 Elementary reactions for CO2 reduction reaction producing CH3OH wi...Table 28.3 Kinetic model of LH and ER mechanisms for the reaction rate calcul...Table 28.4 Kinetic equations for microkinetic modeling.Table 28.5 Equilibrium conditions for microkinetic modeling.Table 28.6 Elementary reactions in alcohol synthesis from syngas.

      10 Chapter 30Table 30.1 OER performances of earth‐abundant OER electrocatalysts.Table 30.2 HER performances of earth‐abundant nonmetal electrocatalysts.

      11 Chapter 33Table 33.1 Physicochemical properties of gasoline, diesel, and biomass‐derive...

      12 Chapter 36Table 36.1 Redox potentials for CO2 reduction.

      13 Chapter 37Table 37.1 Nonexhaustive examples of micropollutants degradable by photocatal...

      List of Illustrations

      1 Chapter 2Figure 2.1 (a) Octahedron, truncated octahedron, and cube with the same volu...Figure 2.2 Schematic of the effect of solvent and capping agents on the morp...Figure 2.3 Side view of anatase TiO2 {101} and {001} facets. Top view for ad...Figure 2.4 Calculated UV–visible extinction (black), absorption (red), and s...Figure 2.5 (a) Scanning electron microscopy (SEM) image of a BiVO4 single cr...Figure 2.6 Diagram of how the facets engineering affects the selectivity and...

      2 Chapter 3Figure 3.1 Schematic drawing of a general electrochemical setup with basic c...Figure 3.2 Schematic diagram of the growth mechanism for anodized metal foil...Figure 3.3 Typical current profile under a constant applied anodization volt...Figure 3.4 SEM images of the simple metal oxides obtained through anodizatio...Figure 3.5 Different modes of current density for electrodeposition (a) dire...Figure 3.6 Schematic illustration of electrophoretic deposition process: (a)...Figure 3.7 Schematic illustration of the apparatus for combined electrophore...

      3 Chapter 4Figure 4.1 Structure of graphene oxide based on the Lerf–Klinowski model....Figure 4.2 Structure of some 2D structures related to graphene: (A) graphene...Figure 4.3 (a) Gradual transformation of nanodiamond to onion‐like carbon at...Figure 4.4 Hydrothermal carbon spheres (a) and noble metal@carbon core–shell...Figure 4.5 Relevant techniques optimized to prepare engineered catalysts on ...Figure 4.7 Different precursors to prepare nitrogen‐coordinated SACs. (a) Ir...

      4 Chapter 5Figure 5.1 Illustration of building up of the band in the bulk metal startin...Figure 5.2 Illustration of selecting specific cluster species using quadrupo...Figure 5.3 Size‐dependent overall CO oxidation reactivity of gold clusters, ...Figure 5.4 Structures of Au8 (left), Au9 (middle), and Au11 (right) in space...Figure 5.5 Illustration of the size regimes and particle size distributions ...Figure 5.6 High‐resolution electron microscopy images (a1–c1) and (a2–c2) of...Figure 5.7 Bar chart comparing the activity and selectivity of the Ru5PtSn c...

      5 Chapter 6Figure 6.1 Prices of different bricks with a size of 20 × 10 × 5 cm3. (a) A ...Figure 6.2 Schematic illustration of improvement of selectivity to butenes o...Figure 6.3 High‐resolution TEM and energy dispersive X‐ray (EDX) line scans ...Figure 6.4 Schematic drawing of size‐selected cluster deposition apparatus a...Figure 6.5 (a, b) HAADF‐STEM images of Pt1/FeO x . (c) The k 3‐weighted Fourier...Figure 6.6 Schematic illustrations of Pt ALD mechanism on graphene nanosheet...Figure 6.7 (a) HAADF‐STEM and (b) magnified HAADF‐STEM images of Rh1/VO2....Figure 6.8 (A) HAADF‐STEM image of Ag1/HMO. (B) Three‐dimensional projected ...

      6 Chapter 7Scheme 7.1 Acid sites generated by the presence of aluminum in zeolite struc...Scheme 7.2 Characteristic configurations of (a) linkage, (b) chains in MFI z...Figure 7.1 Three different types of shape selectivity in zeolites. (a) React...Figure 7.2 Schematic summarizing the advantages of hierarchical zeolites. (S...Figure 7.3 Schematic representation of various hierarchical zeolite formatio...Figure 7.4 Growth of zeolite crystals around carbon particles. A hierarchica...Figure 7.5 Schematic illustration of the synthesis principle for mesoporous ...Figure 7.6 Structural difference between (a) SBA‐15/CMK‐3 and (b) SBA‐15/CMK...Figure 7.7 TEM images of 3DOm‐i (a) LTA, (b) FAU, (c) BEA, and (d) LTL, grow...Figure 7.8 Conceptual strategy for the preparation of hierarchically structu...Figure 7.9 (a) Molecular structure of diquaternary ammonium surfactant with ...Figure 7.10 (a) 18–N3–18 surfactant (white spheres, hydrogen; gray spheres, ...Figure 7.11 Conceptual approach to the synthesis of a zeolite with intracrys...Figure 7.12 Schematic illustration of the formation of mesopores via (1) Al ...Figure