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Abstract
Kinetic analysis of catalytic reactions is a powerful tool for mechanistic elucidation but is often challenging to perform. Establishing order in a catalyst is achieved by running several reactions at different loadings, which is complicated by the challenge of maintaining consistent run-to-run experimental conditions. We present Continuous Addition Kinetic Elucidation (CAKE), which involves steadily injecting catalyst into the reaction, and following reaction progress over time to generate a plot whose shape is dependent only on the order in reactant and in catalyst. Modelling the curve (using a convenient web tool) allows the catalyst and reactant order to be determined, as well as the rate constant and the amount of any catalyst poison present.
Supplementary materials
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Supporting information
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Materials and Methods
Table SI1 – SI3
Figures SI1 – SI4
References (31 – 42)
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Data for Figure 2
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Data for Figure 2
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Data for Figure 3
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Data for Figure 3
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Data for Figure 4
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Data for Figure 4
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Data for Fig 5
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Data for Figure 5
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Data for Figure 6
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Data for Figure 6
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Mathematical Results and Derivations
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Mathematical Results and Derivations; 79 equations
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Supplementary weblinks
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CAKE webtool
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Python-powered webtool for fitting data from a CAKE experiment
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View 
