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Schematic catalyst library

FIGURE 15.6 Schematic catalyst library screening by fluorescence, (a) Ethanol electro-oxidation reaction, (b) pH-dependent Quinine fluorescence, (c) Screening of catalyst library film during ethanol oxidation in ethanol/ quinine solution monitored by a UV Vis lamp. [Pg.444]

FIGURE 15.7 Schematic catalyst library array prepared by reduction with NaBH. ... [Pg.445]

Table 4.1 Schematic representation of varions possible catalyst libraries that could be applied for ligand selection, including advantages and disadvantages. Table 4.1 Schematic representation of varions possible catalyst libraries that could be applied for ligand selection, including advantages and disadvantages.
Figure 12.9. Schematic drawing of an assembled electrochemical cell for combinatorial screening catalyst libraries prepared by sputter deposition [22], (Reprinted from Joiunal of Power Sources, 163(1), Cooper JS, McGinn PJ. Combinatorial screening of thin film electrocatalysts for a direct methanol fuel cell anode, 330-8, 32006, with permission from Elsevier.)... Figure 12.9. Schematic drawing of an assembled electrochemical cell for combinatorial screening catalyst libraries prepared by sputter deposition [22], (Reprinted from Joiunal of Power Sources, 163(1), Cooper JS, McGinn PJ. Combinatorial screening of thin film electrocatalysts for a direct methanol fuel cell anode, 330-8, 32006, with permission from Elsevier.)...
Fig. 11.8 Schematic of the automated primary high-throughput electrochemical workflow employed at Symyx Technologies for the combinatorial development of new fuel cell catalysts. Individual steps of the workflow include choice of catalyst concept, design of appropriate materials library using Library Studio [31], synthesis of electrocatalyst library on electrode array wafer, XRD and EDX characterization of individual electrocatalysts before screening, high-throughput parallel electrochemical screening of library, XRD and EDX characterization of catalysts after screening, data processing and evaluation. Fig. 11.8 Schematic of the automated primary high-throughput electrochemical workflow employed at Symyx Technologies for the combinatorial development of new fuel cell catalysts. Individual steps of the workflow include choice of catalyst concept, design of appropriate materials library using Library Studio [31], synthesis of electrocatalyst library on electrode array wafer, XRD and EDX characterization of individual electrocatalysts before screening, high-throughput parallel electrochemical screening of library, XRD and EDX characterization of catalysts after screening, data processing and evaluation.

See other pages where Schematic catalyst library is mentioned: [Pg.317]    [Pg.181]    [Pg.591]    [Pg.66]   
See also in sourсe #XX -- [ Pg.445 ]




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