SKODA, David, Ran ZHU, Barbora HANULIKOVA, Aleš STÝSKALÍK, Vít VYKOUKAL, Petr MACHÁČ, Lucie ŠIMONÍKOVÁ, Ivo KURITKA, Claude POLEUNIS, Damien P DEBECKER and Yuriy ROMAN-LESHKOV. Propylene Metathesis over Molybdenum Silicate Microspheres with Dispersed Active Sites. ACS Catalysis. WASHINGTON: AMER CHEMICAL SOC, 2023, vol. 13, No 19, p. 12970-12982. ISSN 2155-5435. Available from: https://dx.doi.org/10.1021/acscatal.3c02045.
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Basic information
Original name Propylene Metathesis over Molybdenum Silicate Microspheres with Dispersed Active Sites
Authors SKODA, David, Ran ZHU, Barbora HANULIKOVA, Aleš STÝSKALÍK (203 Czech Republic, belonging to the institution), Vít VYKOUKAL (203 Czech Republic, belonging to the institution), Petr MACHÁČ (203 Czech Republic, belonging to the institution), Lucie ŠIMONÍKOVÁ (203 Czech Republic, belonging to the institution), Ivo KURITKA, Claude POLEUNIS, Damien P DEBECKER and Yuriy ROMAN-LESHKOV (guarantor).
Edition ACS Catalysis, WASHINGTON, AMER CHEMICAL SOC, 2023, 2155-5435.
Other information
Original language English
Type of outcome Article in a journal
Field of Study 10403 Physical chemistry
Country of publisher United States of America
Confidentiality degree is not subject to a state or trade secret
WWW URL
Impact factor Impact factor: 12.900 in 2022
RIV identification code RIV/00216224:14310/23:00132624
Organization unit Faculty of Science
Doi http://dx.doi.org/10.1021/acscatal.3c02045
UT WoS 001069968800001
Keywords in English molybdenum silicate; olefin metathesis; nonaqueous; microspheres; catalyst; propylene
Tags CF CRYO, CF NMR, rivok
Tags International impact, Reviewed
Changed by Changed by: Mgr. Marie Šípková, DiS., učo 437722. Changed: 15/7/2024 12:38.
Abstract
In this work, we demonstrate that amorphous and porous molybdenum silicate microspheres are highly active catalysts for heterogeneous propylene metathesis. Homogeneous molybdenum silicate microspheres and aluminum-doped molybdenum silicate microspheres were synthesized via a nonaqueous condensation of a hybrid molybdenum biphenyldicarboxylatebased precursor solution with (3-aminopropyl)triethoxysilane. The as-prepared hybrid metallosilicate products were calcined at 500 degrees C to obtain amorphous and porous molybdenum silicate and aluminum-doped molybdenum silicate microspheres with highly dispersed molybdate species inserted into the silicate matrix. These catalysts contain mainly highly dispersed MoOx species, which possess high catalytic activity in heterogeneous propylene metathesis to ethylene and butene. Compared to conventional silica-supported MoOx catalysts prepared via incipient wetness impregnation (MoIWI), the microspheres with low Mo content (1.5-3.6 wt %) exhibited nearly 2 orders of magnitude higher steady-state propylene metathesis rates at 200 degrees C, approaching site time yields of 0.11 s-1.
Links
EF18_046/0015974, research and development projectName: Modernizace České infrastruktury pro integrativní strukturní biologii
GJ20-03636Y, research and development projectName: Nové katalyzátory pro přípravu 1,3-butadienu z ethanolu
Investor: Czech Science Foundation
LM2023042, research and development projectName: Česká infrastruktura pro integrativní strukturní biologii
Investor: Ministry of Education, Youth and Sports of the CR, CIISB - Czech Infrastructure for Integrative Structural Biology
LUAUS23085, research and development projectName: Syntéza nových vysoce aktivních metalosilikátových katalyzátorů pro metatezi olefinů
Investor: Ministry of Education, Youth and Sports of the CR, Synthesis of new highly active metallosilicate catalysts for olefin metathesis, INTER-ACTION (USA)
MUNI/A/1209/2022, interní kód MUName: Molekuly, komplexy, makrocykly a xerogely
Investor: Masaryk University, Molecules, complexes, macrocycles, and xerogels
MUNI/A/1298/2022, interní kód MUName: Základní a aplikovaný výzkum a vývoj metod chemické a fyzikálně chemické analýzy pro studium přírody a pokročilé technologie
Investor: Masaryk University, Basic and applied research and development of chemical and physicochemical analytical methods for the study of nature and advanced technology
MUNI/J/0007/2021, interní kód MUName: Tailored Catalysts for Carbon Dioxide Utilization
Investor: Masaryk University, MASH JUNIOR - MUNI Award In Science and Humanities JUNIOR
90110, large research infrastructuresName: CzechNanoLab
90242, large research infrastructuresName: CIISB III
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