Takahashi Group (情報化学研究室)
Takahashi Group (情報化学研究室)
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Junya Ohyama
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Bayesian-Optimization-Based Improvement of Cu-CHA Catalysts for Direct Partial Oxidation of CH4
High-throughput screening and literature data-driven machine learning-assisted investigation of multi-component La 2 O 3-based catalysts for the oxidative coupling of methane
Machine Learning-Aided Catalyst Modification in Oxidative Coupling of Methane via Manganese Promoter
Relationships among the Catalytic Performance, Redox Activity, and Structure of Cu-CHA Catalysts for the Direct Oxidation of Methane to Methanol Investigated Using In Situ XAFS and UV--Vis Spectroscopies
Selective Oxidation of Methane to Formaldehyde over a Silica-Supported Cobalt Single-Atom Catalyst
Synthesis of Heterogeneous Catalysts in Catalyst Informatics to Bridge Experiment and High-Throughput Calculation
The Rise of Catalysts Informatics
Catalytic direct oxidation of methane to methanol by redox of copper mordenite
Catalytic oxidation of methane to methanol over Cu-CHA with molecular oxygen
Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2
Direct design of active catalysts for low temperature oxidative coupling of methane via machine learning and data mining
Cover Feature: Revisiting Machine Learning Predictions for Oxidative Coupling of Methane (OCM) based on Literature Data (ChemCatChem 23/2020)
Data-driven identification of the reaction network in oxidative coupling of the methane reaction via experimental data
Representing the Methane Oxidation Reaction via Linking First-Principles Calculations and Experiment with Graph Theory
Revisiting machine learning predictions for oxidative coupling of methane (OCM) based on literature data
Data driven determination of reaction conditions in oxidative coupling of methane via machine learning
High-throughput experimentation and catalyst informatics for oxidative coupling of methane
Front Cover: Unveiling Hidden Catalysts for the Oxidative Coupling of Methane based on Combining Machine Learning with Literature Data (ChemCatChem 15/2018)
Unveiling hidden catalysts for the oxidative coupling of methane based on combining machine learning with literature data
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