Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2

Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2

Abstract Dozens of Cu zeolites with MOR, FAU, BEA, FER, CHA and MFI frameworks are tested for direct oxidation of CH4 to CH3OH using H2O2 as oxidant. To investigate the active structures of the Cu zeolites, 15 structural variables, which describe the features of the zeolite framework and reflect the...

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Main Authors: Junya Ohyama, Airi Hirayama, Nahoko Kondou, Hiroshi Yoshida, Masato Machida, Shun Nishimura, Kenji Hirai, Itsuki Miyazato, Keisuke Takahashi
Format: Article
Language:English
Published: Nature Publishing Group 2021-01-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-81403-4
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spelling doaj-797275017f444ce6b6872fb7c39cd9fe2021-01-24T12:30:35ZengNature Publishing GroupScientific Reports2045-23222021-01-0111111010.1038/s41598-021-81403-4Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2Junya Ohyama0Airi Hirayama1Nahoko Kondou2Hiroshi Yoshida3Masato Machida4Shun Nishimura5Kenji Hirai6Itsuki Miyazato7Keisuke Takahashi8Faculty of Advanced Science and Technology, Kumamoto UniversityDepartment of Applied Chemistry and Biochemistry, Graduate School of Science and Technology, Kumamoto UniversityFaculty of Advanced Science and Technology, Kumamoto UniversityFaculty of Advanced Science and Technology, Kumamoto UniversityFaculty of Advanced Science and Technology, Kumamoto UniversityGraduate School of Advanced Science and Technology, Japan Advanced Institute of Science and Technology (JAIST)Research Institute for Electronic Science, Hokkaido UniversityDepartment of Chemistry, Hokkaido UniversityDepartment of Chemistry, Hokkaido UniversityAbstract Dozens of Cu zeolites with MOR, FAU, BEA, FER, CHA and MFI frameworks are tested for direct oxidation of CH4 to CH3OH using H2O2 as oxidant. To investigate the active structures of the Cu zeolites, 15 structural variables, which describe the features of the zeolite framework and reflect the composition, the surface area and the local structure of the Cu zeolite active site, are collected from the Database of Zeolite Structures of the International Zeolite Association (IZA). Also analytical studies based on inductively coupled plasma-optical emission spectrometry (ICP-OES), X-ray fluorescence (XRF), N2 adsorption specific surface area measurement and X-ray absorption fine structure (XAFS) spectral measurement are performed. The relationships between catalytic activity and the structural variables are subsequently revealed by data science techniques, specifically, classification using unsupervised and supervised machine learning and data visualization using pairwise correlation. Based on the unveiled relationships and a detailed analysis of the XAFS spectra, the local structures of the Cu zeolites with high activity are proposed.https://doi.org/10.1038/s41598-021-81403-4
collection DOAJ
language English
format Article
sources DOAJ
author Junya Ohyama
Airi Hirayama
Nahoko Kondou
Hiroshi Yoshida
Masato Machida
Shun Nishimura
Kenji Hirai
Itsuki Miyazato
Keisuke Takahashi
spellingShingle Junya Ohyama
Airi Hirayama
Nahoko Kondou
Hiroshi Yoshida
Masato Machida
Shun Nishimura
Kenji Hirai
Itsuki Miyazato
Keisuke Takahashi
Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2
Scientific Reports
author_facet Junya Ohyama
Airi Hirayama
Nahoko Kondou
Hiroshi Yoshida
Masato Machida
Shun Nishimura
Kenji Hirai
Itsuki Miyazato
Keisuke Takahashi
author_sort Junya Ohyama
title Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2
title_short Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2
title_full Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2
title_fullStr Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2
title_full_unstemmed Data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using H2O2
title_sort data science assisted investigation of catalytically active copper hydrate in zeolites for direct oxidation of methane to methanol using h2o2
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-01-01
description Abstract Dozens of Cu zeolites with MOR, FAU, BEA, FER, CHA and MFI frameworks are tested for direct oxidation of CH4 to CH3OH using H2O2 as oxidant. To investigate the active structures of the Cu zeolites, 15 structural variables, which describe the features of the zeolite framework and reflect the composition, the surface area and the local structure of the Cu zeolite active site, are collected from the Database of Zeolite Structures of the International Zeolite Association (IZA). Also analytical studies based on inductively coupled plasma-optical emission spectrometry (ICP-OES), X-ray fluorescence (XRF), N2 adsorption specific surface area measurement and X-ray absorption fine structure (XAFS) spectral measurement are performed. The relationships between catalytic activity and the structural variables are subsequently revealed by data science techniques, specifically, classification using unsupervised and supervised machine learning and data visualization using pairwise correlation. Based on the unveiled relationships and a detailed analysis of the XAFS spectra, the local structures of the Cu zeolites with high activity are proposed.
url https://doi.org/10.1038/s41598-021-81403-4
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