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Theoretical investigation on the spectroscopic properties and catalytic activities of the Ti-Hydroperoxo intermediates in titanosilicate zeolites

The spectroscopic features of the Ti-hydroperoxo intermediates in TS-1, Ti-BEA, and Ti-YNU-1 zeolites were studied by using theoretical calculations. The Ti-hydroperoxo intermediates, Ti-η1(OOH), Ti-η1(OOH)–H2O, Ti-η2(OOH), and Ti-η2(OOH)–H2O species, as well as Ti-η1(OOH)–CH3OH, Ti-η1(OOH)–CH3CN, T...

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Published in:	Microporous and mesoporous materials 2020-06, Vol.299, p.110133, Article 110133
Main Authors:	Li, Mengzhao, Yan, Xiaoyue, Zhu, Meiyu, Zhou, Danhong
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Language:	English
Subjects:	Density functional theory Spectroscopic features Ti-hydroperoxo intermediates Time-dependent density functional theory Titanosilicate zeolites
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description	The spectroscopic features of the Ti-hydroperoxo intermediates in TS-1, Ti-BEA, and Ti-YNU-1 zeolites were studied by using theoretical calculations. The Ti-hydroperoxo intermediates, Ti-η1(OOH), Ti-η1(OOH)–H2O, Ti-η2(OOH), and Ti-η2(OOH)–H2O species, as well as Ti-η1(OOH)–CH3OH, Ti-η1(OOH)–CH3CN, Ti-η2(OOH)–CH3OH, and Ti-η2(OOH)–CH3CN species were constructed and their IR, Raman, and UV–vis spectra were calculated. The geometry optimization and vibrational frequency calculations were carried out with DFT method at the theoretical level of B3LYP/6-31G(d, p), and the UV–vis spectra were obtained with TD-DFT method at the theoretical level of PBEPBE/6–311++G(d, p). The calculated structures show the average Ti–O bond distances of 2.01 ± 0.02 Å, consistent well with the experimental EXAFS data reported in the literatures. The calculated IR and Raman spectra of Ti-hydroperoxo intermediates show that the Oα–Oβ stretching vibrations are in the range of 870–910 cm−1 for Ti-η1(OOH) and Ti-η1(OOH)-R (R = H2O, CH3OH, CH3CN) species, and 834–855 cm−1 for Ti-η2(OOH) and Ti-η2(OOH)-R species. TD-DFT calculations indicate that for Ti-η1(OOH) and Ti-η1(OOH)-R species, the transition wavelengths are in the range of 350–365 nm and 370–400 nm, respectively, which are ascribed to the electron transition from the p orbital of the active oxygen Oα and Oβ to the unoccupied d* orbital of framework Ti atom, being responsible for the 385 nm band observed in the experimental UV–vis spectrum of TS-1 zeolite as contacting with H2O2 aqueous solution. Whereas, for the Ti-η2(OOH) and Ti-η2(OOH)-R species, all the corresponding transitions are below 350 nm. The catalytic performances of the Ti-hydroperoxo intermediates for olefin epoxidation were also evaluated. In combination of the calculated geometric parameters, the stabilities, the spectroscopic properties, and the catalytic performances, it is demonstrated that the initially formed Ti-hydroperoxo intermediates in titanosilicate/H2O2/H2O system should be Ti-η1(OOH)–H2O or Ti-η1(OOH) species, which then converts into the more stable Ti-η2(OOH)–H2O species that works as the actual catalytic active center for epoxidation reactions. If the solvent is methanol or acetonitrile, Ti-η2(OOH)–CH3OH or Ti-η2(OOH)–CH3CN species should be the predominant active center. [Display omitted] •The spectroscopic features of Ti-hydroperoxo species were calculated by DFT method.•Ti-η1(OOH) exists the electronic transition at 385 nm in UV–vis spectrum.•Ti
doi_str_mv	10.1016/j.micromeso.2020.110133
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The Ti-hydroperoxo intermediates, Ti-η1(OOH), Ti-η1(OOH)–H2O, Ti-η2(OOH), and Ti-η2(OOH)–H2O species, as well as Ti-η1(OOH)–CH3OH, Ti-η1(OOH)–CH3CN, Ti-η2(OOH)–CH3OH, and Ti-η2(OOH)–CH3CN species were constructed and their IR, Raman, and UV–vis spectra were calculated. The geometry optimization and vibrational frequency calculations were carried out with DFT method at the theoretical level of B3LYP/6-31G(d, p), and the UV–vis spectra were obtained with TD-DFT method at the theoretical level of PBEPBE/6–311++G(d, p). The calculated structures show the average Ti–O bond distances of 2.01 ± 0.02 Å, consistent well with the experimental EXAFS data reported in the literatures. The calculated IR and Raman spectra of Ti-hydroperoxo intermediates show that the Oα–Oβ stretching vibrations are in the range of 870–910 cm−1 for Ti-η1(OOH) and Ti-η1(OOH)-R (R = H2O, CH3OH, CH3CN) species, and 834–855 cm−1 for Ti-η2(OOH) and Ti-η2(OOH)-R species. TD-DFT calculations indicate that for Ti-η1(OOH) and Ti-η1(OOH)-R species, the transition wavelengths are in the range of 350–365 nm and 370–400 nm, respectively, which are ascribed to the electron transition from the p orbital of the active oxygen Oα and Oβ to the unoccupied d* orbital of framework Ti atom, being responsible for the 385 nm band observed in the experimental UV–vis spectrum of TS-1 zeolite as contacting with H2O2 aqueous solution. Whereas, for the Ti-η2(OOH) and Ti-η2(OOH)-R species, all the corresponding transitions are below 350 nm. The catalytic performances of the Ti-hydroperoxo intermediates for olefin epoxidation were also evaluated. In combination of the calculated geometric parameters, the stabilities, the spectroscopic properties, and the catalytic performances, it is demonstrated that the initially formed Ti-hydroperoxo intermediates in titanosilicate/H2O2/H2O system should be Ti-η1(OOH)–H2O or Ti-η1(OOH) species, which then converts into the more stable Ti-η2(OOH)–H2O species that works as the actual catalytic active center for epoxidation reactions. If the solvent is methanol or acetonitrile, Ti-η2(OOH)–CH3OH or Ti-η2(OOH)–CH3CN species should be the predominant active center. [Display omitted] •The spectroscopic features of Ti-hydroperoxo species were calculated by DFT method.•Ti-η1(OOH) exists the electronic transition at 385 nm in UV–vis spectrum.•Ti-η2(OOH)–H2O has the O–O stretching vibration at 840 cm−1 in Raman spectrum.•Ti-η1(OOH) has lower stability and catalytic activity than Ti-η2(OOH)–H2O.•Ti-η2(OOH)–H2O is the active center for olefin epoxidation in TS-1/H2O2/H2O system.</description><identifier>ISSN: 1387-1811</identifier><identifier>EISSN: 1873-3093</identifier><identifier>DOI: 10.1016/j.micromeso.2020.110133</identifier><language>eng</language><publisher>Elsevier Inc</publisher><subject>Density functional theory ; Spectroscopic features ; Ti-hydroperoxo intermediates ; Time-dependent density functional theory ; Titanosilicate zeolites</subject><ispartof>Microporous and mesoporous materials, 2020-06, Vol.299, p.110133, Article 110133</ispartof><rights>2020 Elsevier Inc.</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c245t-91ff83f69c760a70ffbd4039a68a51f1c49b853ad39e972844ea9161f67a3da73</citedby><cites>FETCH-LOGICAL-c245t-91ff83f69c760a70ffbd4039a68a51f1c49b853ad39e972844ea9161f67a3da73</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,777,781,27905,27906</link.rule.ids></links><search><creatorcontrib>Li, Mengzhao</creatorcontrib><creatorcontrib>Yan, Xiaoyue</creatorcontrib><creatorcontrib>Zhu, Meiyu</creatorcontrib><creatorcontrib>Zhou, Danhong</creatorcontrib><title>Theoretical investigation on the spectroscopic properties and catalytic activities of the Ti-Hydroperoxo intermediates in titanosilicate zeolites</title><title>Microporous and mesoporous materials</title><description>The spectroscopic features of the Ti-hydroperoxo intermediates in TS-1, Ti-BEA, and Ti-YNU-1 zeolites were studied by using theoretical calculations. The Ti-hydroperoxo intermediates, Ti-η1(OOH), Ti-η1(OOH)–H2O, Ti-η2(OOH), and Ti-η2(OOH)–H2O species, as well as Ti-η1(OOH)–CH3OH, Ti-η1(OOH)–CH3CN, Ti-η2(OOH)–CH3OH, and Ti-η2(OOH)–CH3CN species were constructed and their IR, Raman, and UV–vis spectra were calculated. The geometry optimization and vibrational frequency calculations were carried out with DFT method at the theoretical level of B3LYP/6-31G(d, p), and the UV–vis spectra were obtained with TD-DFT method at the theoretical level of PBEPBE/6–311++G(d, p). The calculated structures show the average Ti–O bond distances of 2.01 ± 0.02 Å, consistent well with the experimental EXAFS data reported in the literatures. The calculated IR and Raman spectra of Ti-hydroperoxo intermediates show that the Oα–Oβ stretching vibrations are in the range of 870–910 cm−1 for Ti-η1(OOH) and Ti-η1(OOH)-R (R = H2O, CH3OH, CH3CN) species, and 834–855 cm−1 for Ti-η2(OOH) and Ti-η2(OOH)-R species. TD-DFT calculations indicate that for Ti-η1(OOH) and Ti-η1(OOH)-R species, the transition wavelengths are in the range of 350–365 nm and 370–400 nm, respectively, which are ascribed to the electron transition from the p orbital of the active oxygen Oα and Oβ to the unoccupied d* orbital of framework Ti atom, being responsible for the 385 nm band observed in the experimental UV–vis spectrum of TS-1 zeolite as contacting with H2O2 aqueous solution. Whereas, for the Ti-η2(OOH) and Ti-η2(OOH)-R species, all the corresponding transitions are below 350 nm. The catalytic performances of the Ti-hydroperoxo intermediates for olefin epoxidation were also evaluated. In combination of the calculated geometric parameters, the stabilities, the spectroscopic properties, and the catalytic performances, it is demonstrated that the initially formed Ti-hydroperoxo intermediates in titanosilicate/H2O2/H2O system should be Ti-η1(OOH)–H2O or Ti-η1(OOH) species, which then converts into the more stable Ti-η2(OOH)–H2O species that works as the actual catalytic active center for epoxidation reactions. If the solvent is methanol or acetonitrile, Ti-η2(OOH)–CH3OH or Ti-η2(OOH)–CH3CN species should be the predominant active center. [Display omitted] •The spectroscopic features of Ti-hydroperoxo species were calculated by DFT method.•Ti-η1(OOH) exists the electronic transition at 385 nm in UV–vis spectrum.•Ti-η2(OOH)–H2O has the O–O stretching vibration at 840 cm−1 in Raman spectrum.•Ti-η1(OOH) has lower stability and catalytic activity than Ti-η2(OOH)–H2O.•Ti-η2(OOH)–H2O is the active center for olefin epoxidation in TS-1/H2O2/H2O system.</description><subject>Density functional theory</subject><subject>Spectroscopic features</subject><subject>Ti-hydroperoxo intermediates</subject><subject>Time-dependent density functional theory</subject><subject>Titanosilicate zeolites</subject><issn>1387-1811</issn><issn>1873-3093</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><recordid>eNqFkNFKwzAUhosoOKfPYF6gM2m6pr0cQ50geDOvw1l64s5om5KE4XwL39hsE2-FQMJ_zv-fky_L7gWfCS6qh92sJ-Ndj8HNCl4kNclSXmQTUSuZS97Iy_SWtcpFLcR1dhPCjnOhRCEm2fd6i85jJAMdo2GPIdIHRHIDSydukYURTfQuGDeSYaN3I_pIGBgMLTMQoTskNwMTaU-ngrMn45ry1aE99btPl8Ij-h5bgph6KIVThMEF6tLsiOwLXUepdJtdWegC3v3e0-z96XG9XOWvb88vy8VrbopyHvNGWFtLWzVGVRwUt3bTllw2UNUwF1aYstnUcwmtbLBRRV2WCI2ohK0UyBaUnGbqnJvgheDR6tFTD_6gBddHsnqn_8jqI1l9Jpuci7MT03p7Qq-DIRxM-ptPrHTr6N-MH5O0i8I</recordid><startdate>202006</startdate><enddate>202006</enddate><creator>Li, Mengzhao</creator><creator>Yan, Xiaoyue</creator><creator>Zhu, Meiyu</creator><creator>Zhou, Danhong</creator><general>Elsevier Inc</general><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>202006</creationdate><title>Theoretical investigation on the spectroscopic properties and catalytic activities of the Ti-Hydroperoxo intermediates in titanosilicate zeolites</title><author>Li, Mengzhao ; Yan, Xiaoyue ; Zhu, Meiyu ; Zhou, Danhong</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c245t-91ff83f69c760a70ffbd4039a68a51f1c49b853ad39e972844ea9161f67a3da73</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>Density functional theory</topic><topic>Spectroscopic features</topic><topic>Ti-hydroperoxo intermediates</topic><topic>Time-dependent density functional theory</topic><topic>Titanosilicate zeolites</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Li, Mengzhao</creatorcontrib><creatorcontrib>Yan, Xiaoyue</creatorcontrib><creatorcontrib>Zhu, Meiyu</creatorcontrib><creatorcontrib>Zhou, Danhong</creatorcontrib><collection>CrossRef</collection><jtitle>Microporous and mesoporous materials</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Li, Mengzhao</au><au>Yan, Xiaoyue</au><au>Zhu, Meiyu</au><au>Zhou, Danhong</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Theoretical investigation on the spectroscopic properties and catalytic activities of the Ti-Hydroperoxo intermediates in titanosilicate zeolites</atitle><jtitle>Microporous and mesoporous materials</jtitle><date>2020-06</date><risdate>2020</risdate><volume>299</volume><spage>110133</spage><pages>110133-</pages><artnum>110133</artnum><issn>1387-1811</issn><eissn>1873-3093</eissn><abstract>The spectroscopic features of the Ti-hydroperoxo intermediates in TS-1, Ti-BEA, and Ti-YNU-1 zeolites were studied by using theoretical calculations. The Ti-hydroperoxo intermediates, Ti-η1(OOH), Ti-η1(OOH)–H2O, Ti-η2(OOH), and Ti-η2(OOH)–H2O species, as well as Ti-η1(OOH)–CH3OH, Ti-η1(OOH)–CH3CN, Ti-η2(OOH)–CH3OH, and Ti-η2(OOH)–CH3CN species were constructed and their IR, Raman, and UV–vis spectra were calculated. The geometry optimization and vibrational frequency calculations were carried out with DFT method at the theoretical level of B3LYP/6-31G(d, p), and the UV–vis spectra were obtained with TD-DFT method at the theoretical level of PBEPBE/6–311++G(d, p). The calculated structures show the average Ti–O bond distances of 2.01 ± 0.02 Å, consistent well with the experimental EXAFS data reported in the literatures. The calculated IR and Raman spectra of Ti-hydroperoxo intermediates show that the Oα–Oβ stretching vibrations are in the range of 870–910 cm−1 for Ti-η1(OOH) and Ti-η1(OOH)-R (R = H2O, CH3OH, CH3CN) species, and 834–855 cm−1 for Ti-η2(OOH) and Ti-η2(OOH)-R species. TD-DFT calculations indicate that for Ti-η1(OOH) and Ti-η1(OOH)-R species, the transition wavelengths are in the range of 350–365 nm and 370–400 nm, respectively, which are ascribed to the electron transition from the p orbital of the active oxygen Oα and Oβ to the unoccupied d* orbital of framework Ti atom, being responsible for the 385 nm band observed in the experimental UV–vis spectrum of TS-1 zeolite as contacting with H2O2 aqueous solution. Whereas, for the Ti-η2(OOH) and Ti-η2(OOH)-R species, all the corresponding transitions are below 350 nm. The catalytic performances of the Ti-hydroperoxo intermediates for olefin epoxidation were also evaluated. In combination of the calculated geometric parameters, the stabilities, the spectroscopic properties, and the catalytic performances, it is demonstrated that the initially formed Ti-hydroperoxo intermediates in titanosilicate/H2O2/H2O system should be Ti-η1(OOH)–H2O or Ti-η1(OOH) species, which then converts into the more stable Ti-η2(OOH)–H2O species that works as the actual catalytic active center for epoxidation reactions. If the solvent is methanol or acetonitrile, Ti-η2(OOH)–CH3OH or Ti-η2(OOH)–CH3CN species should be the predominant active center. [Display omitted] •The spectroscopic features of Ti-hydroperoxo species were calculated by DFT method.•Ti-η1(OOH) exists the electronic transition at 385 nm in UV–vis spectrum.•Ti-η2(OOH)–H2O has the O–O stretching vibration at 840 cm−1 in Raman spectrum.•Ti-η1(OOH) has lower stability and catalytic activity than Ti-η2(OOH)–H2O.•Ti-η2(OOH)–H2O is the active center for olefin epoxidation in TS-1/H2O2/H2O system.</abstract><pub>Elsevier Inc</pub><doi>10.1016/j.micromeso.2020.110133</doi></addata></record>
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subjects	Density functional theory Spectroscopic features Ti-hydroperoxo intermediates Time-dependent density functional theory Titanosilicate zeolites
title	Theoretical investigation on the spectroscopic properties and catalytic activities of the Ti-Hydroperoxo intermediates in titanosilicate zeolites
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