The Accuracy Challenge of the DFT-Based Molecular Assignment of 13C MAS NMR Characterization of Surface Intermediates in Zeolite Catalysis Научная публикация
| Журнал |
PCCP: Physical Chemistry Chemical Physics
ISSN: 1463-9076 , E-ISSN: 1463-9084 |
||||||||
|---|---|---|---|---|---|---|---|---|---|
| Вых. Данные | Год: 2020, Том: 22, Номер: 41, Страницы: 24004-24013 Страниц : 10 DOI: 10.1039/d0cp04439c | ||||||||
| Ключевые слова | SOLID-STATE NMR; GAUSSIAN-BASIS SETS; METHANE ACTIVATION; METHOXY GROUPS; ZSM-5 ZEOLITE; ADJUSTABLE-PARAMETERS; MECHANISTIC INSIGHTS; DENSITY FUNCTIONALS; EXCHANGED ZEOLITES; CHEMICAL-SHIFTS | ||||||||
| Авторы |
|
||||||||
| Организации |
|
Информация о финансировании (2)
| 1 | Федеральное агентство научных организаций России | 0303-2016-0003 |
| 2 | Российский фонд фундаментальных исследований | 20-33-90093 |
Реферат:
The influence of the model and method choice on the DFT predicted 13C NMR chemical shifts of zeolite surface methoxide species has been systematically analyzed. Twelve 13C NMR chemical shift calculation protocols on full periodic and hybrid periodic–cluster DFT calculations with varied structural relaxation procedures are examined. The primary assessment of the accuracy of the computational protocols has been carried out for the Si–O(CH3)–Al surface methoxide species in ZSM-5 zeolite with well-defined experimental NMR parameters (chemical shift, δ(13C) value) as a reference. Different configurations of these surface intermediates and their location inside the ZSM-5 pores are considered explicitly. The predicted δ value deviates by up to ±0.8 ppm from the experimental value of 59 ppm due to the varied confinement of the methoxide species at different zeolite sites (model accuracy). The choice of the exchange–correlation functional (method accuracy) introduces ±1.5 ppm uncertainty in the computed chemical shifts. The accuracy of the predicted 13C NMR chemical shifts for the computational assignment of spectral characteristics of zeolite intermediates has been further analyzed by considering the potential intermediate species formed upon methane activation by Cu/ZSM-5 zeolite. The presence of Cu species in the vicinity of surface methoxide increases the prediction uncertainty to ±2.5 ppm. The full geometry relaxation of the local environment of an active site at an appropriate level of theory is critical to ensure a good agreement between the experimental and computed NMR data. Chemical shifts (δ) calculated via full geometry relaxation of a cluster model of a relevant portion of the zeolite lattice site are in the best agreement with the experimental values. Our analysis indicates that the full geometry optimization of a cluster model at the PBE0-D3/6-311G(d,p) level of theory followed by GIAO/PBE0-D3/aug-cc-pVDZ calculations is the most suitable approach for the calculation of 13C chemical shifts of zeolite surface intermediates.
Библиографическая ссылка:
Kolganov A.A.
, Gabrienko A.A.
, Chernyshov I.Y.
, Stepanov A.G.
, Pidko E.A.
The Accuracy Challenge of the DFT-Based Molecular Assignment of 13C MAS NMR Characterization of Surface Intermediates in Zeolite Catalysis
PCCP: Physical Chemistry Chemical Physics. 2020.
V.22. N41. P.24004-24013. DOI: 10.1039/d0cp04439c
WOS
Scopus
РИНЦ
CAPlusCA
PMID
OpenAlex
The Accuracy Challenge of the DFT-Based Molecular Assignment of 13C MAS NMR Characterization of Surface Intermediates in Zeolite Catalysis
PCCP: Physical Chemistry Chemical Physics. 2020.
V.22. N41. P.24004-24013. DOI: 10.1039/d0cp04439c
WOS
Scopus
РИНЦ
CAPlusCA
PMID
OpenAlex
Файлы:
Полный текст от издателя
Даты:
| Поступила в редакцию: | 21 авг. 2020 г. |
| Принята к публикации: | 29 сент. 2020 г. |
| Опубликована online: | 30 сент. 2020 г. |
| Опубликована в печати: | 7 нояб. 2020 г. |
Идентификаторы БД:
| Web of science: | WOS:000582937400048 |
| Scopus: | 2-s2.0-85094932189 |
| РИНЦ: | 45175213 |
| Chemical Abstracts: | 2020:1964654 |
| Chemical Abstracts (print): | 177:106274 |
| PMID (PubMed): | 33075116 |
| OpenAlex: | W3089574856 |