Relationships between the race time and each touchdown time (TD).

Shaded areas in blue indicate the 95% confidence interval for regression lines. Shaded areas in gray indicate the 95% prediction interval for estimated touchdown times.</p

The data underlying the findings in this study.

(CSV)</p

Comparison of regression equations with and without reaction time.

Comparison of regression equations with and without reaction time.</p

Comparison of goodness of fit and generalization in each equation between the present study model and Miyashiro model.

Comparison of goodness of fit and generalization in each equation between the present study model and Miyashiro model.</p

Python code.

(IPYNB)</p

Summary of evaluation metrics with unifying the scale of each touchdown time in the present study model.

Summary of evaluation metrics with unifying the scale of each touchdown time in the present study model.</p

Efficient Cleaning Method for Flow Reactors in Flow Lithiation Reactions Under Water-free Conditions

Flow lithiation reactions often face the significant challenge of fouling in flow reactors caused by inorganic lithium salts. This study proposes a new cleaning method for flow reactors in flow lithiation reactions that does not require water. This method uses phenolic derivatives and converts inorganic lithium salts precipitated in the channel to organic lithium salts soluble in organic solvents. By eliminating water from the process, the risk of fouling after cleaning is significantly reduced, ensuring safe and stable operation of the flow lithiation reactions