Effects of Cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves

Effects of Cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves

The concentration effects on Cu uptake into the structures and reactivity of manganese oxide octahedral molecular sieves (OMS) were investigated. Two sets of 3 × 3-tunnel structure OMS designated as OMS-1 were synthesized by hydrothermal treatment at 160 °C for 48 h. The Cu−OMS-1 series of materials...

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Main Authors: Tolentino, Elaine Nicolas, Tian, Zheng-Rong, Zhou, Hua, Xia, Guanguang, Suib, Steven L.
Format: text
Published: Animo Repository 1999
Subjects:
Copper—Reactivity
Manganese oxides
Chemistry
Online Access:https://animorepository.dlsu.edu.ph/faculty_research/13352
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Institution: De La Salle University
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spelling oai:animorepository.dlsu.edu.ph:faculty_research-138022024-11-11T01:27:12Z Effects of Cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves Tolentino, Elaine Nicolas Tian, Zheng-Rong Zhou, Hua Xia, Guanguang Suib, Steven L. The concentration effects on Cu uptake into the structures and reactivity of manganese oxide octahedral molecular sieves (OMS) were investigated. Two sets of 3 × 3-tunnel structure OMS designated as OMS-1 were synthesized by hydrothermal treatment at 160 °C for 48 h. The Cu−OMS-1 series of materials (tunnel substituted) were prepared by incorporating Cu2+ ions into OL-1, which has a layered structure, at 60 °C for 24 h. [Cu]−OMS-1 materials (framework substituted) were prepared by ion exchanging Cu2+ ions into the tunnels of OMS-1 under similar conditions. Cu−OMS-2 materials characterized by 2 × 2 tunnels were prepared by the reflux method. ICP analysis shows a Cu/Mn molar ratio of 0.278 for Cu−OMS-1 labeled C as the substitution limit for a pure sample based on its XRD pattern. The Cu(II) ions easily substitute for the divalent cations (Mg2+, Mn 2+) either in tunnel or framework sites when exchange was done before hydrothermal treatment. The presence of Cu2+ ions decreases the Mn2+/Mn4+ ratio in Cu−OMS-1 samples as suggested by an increasing trend in the average oxidation state of Mn and decreasing amounts of total Mn. XPS data reveal that Cu remains in the 2+ state in all of the materials as indicated by the shake-up peaks associated with Cu in such valency. EPR spectra of Cu-containing OMS-1 materials show the six peaks of Mn2+ with a hyperfine splitting constant of 97 G, indicating an octahedral environment. The TGA profiles of [Cu]−OMS-1 show that these samples have the same thermal stability as OMS-1 but the amount of lattice oxygen evolved decreases slightly with the amount of Cu2+ in the tunnel. The thermal stability of the Cu− OMS-1 and Cu−OMS-2 structures decrease as the amount of Cu incorporated increases. The copper ions that substitute for Mn2+ in the framework are considered as defects in the structure of the crystallites which make them less stable than OMS-1 containing Mg2+ in the framework where it exhibits a stabilizing effect. Resistivity measurements show a decrease and leveling off as the concentration of Cu increases in the Cu−OMS-1 series, which is a trend consistent with doping. The resistivity of the OMS-2 structure increases with the amount of copper incorporated. Cu(II) ions replacing the divalent cations in the framework during hydrothermal synthesis possibly account for the properties observed in the Cu−OMS-1 materials. An increased catalytic activity was observed for this set of materials as the Cu/Mn ratio increased for the oxidative dehydrogenation of ethylbenzene to styrene at 300 °C at 1 atm. 1999-06-09T07:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/13352 Faculty Research Work Animo Repository Copper—Reactivity Manganese oxides Chemistry
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
topic Copper—Reactivity
Manganese oxides
Chemistry
spellingShingle Copper—Reactivity
Manganese oxides
Chemistry
Tolentino, Elaine Nicolas
Tian, Zheng-Rong
Zhou, Hua
Xia, Guanguang
Suib, Steven L.
Effects of Cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves
description The concentration effects on Cu uptake into the structures and reactivity of manganese oxide octahedral molecular sieves (OMS) were investigated. Two sets of 3 × 3-tunnel structure OMS designated as OMS-1 were synthesized by hydrothermal treatment at 160 °C for 48 h. The Cu−OMS-1 series of materials (tunnel substituted) were prepared by incorporating Cu2+ ions into OL-1, which has a layered structure, at 60 °C for 24 h. [Cu]−OMS-1 materials (framework substituted) were prepared by ion exchanging Cu2+ ions into the tunnels of OMS-1 under similar conditions. Cu−OMS-2 materials characterized by 2 × 2 tunnels were prepared by the reflux method. ICP analysis shows a Cu/Mn molar ratio of 0.278 for Cu−OMS-1 labeled C as the substitution limit for a pure sample based on its XRD pattern. The Cu(II) ions easily substitute for the divalent cations (Mg2+, Mn 2+) either in tunnel or framework sites when exchange was done before hydrothermal treatment. The presence of Cu2+ ions decreases the Mn2+/Mn4+ ratio in Cu−OMS-1 samples as suggested by an increasing trend in the average oxidation state of Mn and decreasing amounts of total Mn. XPS data reveal that Cu remains in the 2+ state in all of the materials as indicated by the shake-up peaks associated with Cu in such valency. EPR spectra of Cu-containing OMS-1 materials show the six peaks of Mn2+ with a hyperfine splitting constant of 97 G, indicating an octahedral environment. The TGA profiles of [Cu]−OMS-1 show that these samples have the same thermal stability as OMS-1 but the amount of lattice oxygen evolved decreases slightly with the amount of Cu2+ in the tunnel. The thermal stability of the Cu− OMS-1 and Cu−OMS-2 structures decrease as the amount of Cu incorporated increases. The copper ions that substitute for Mn2+ in the framework are considered as defects in the structure of the crystallites which make them less stable than OMS-1 containing Mg2+ in the framework where it exhibits a stabilizing effect. Resistivity measurements show a decrease and leveling off as the concentration of Cu increases in the Cu−OMS-1 series, which is a trend consistent with doping. The resistivity of the OMS-2 structure increases with the amount of copper incorporated. Cu(II) ions replacing the divalent cations in the framework during hydrothermal synthesis possibly account for the properties observed in the Cu−OMS-1 materials. An increased catalytic activity was observed for this set of materials as the Cu/Mn ratio increased for the oxidative dehydrogenation of ethylbenzene to styrene at 300 °C at 1 atm.
format text
author Tolentino, Elaine Nicolas
Tian, Zheng-Rong
Zhou, Hua
Xia, Guanguang
Suib, Steven L.
author_facet Tolentino, Elaine Nicolas
Tian, Zheng-Rong
Zhou, Hua
Xia, Guanguang
Suib, Steven L.
author_sort Tolentino, Elaine Nicolas
title Effects of Cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves
title_short Effects of Cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves
title_full Effects of Cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves
title_fullStr Effects of Cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves
title_full_unstemmed Effects of Cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves
title_sort effects of cu2+ ions on the structure and reactivity of todorokite- and cryptomelane-type manganese oxide octahedral molecular sieves
publisher Animo Repository
publishDate 1999
url https://animorepository.dlsu.edu.ph/faculty_research/13352
_version_ 1816861340205056000

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