Relevant bibliographies by topics / MOO3 / CEO2 / MCM-41 catalyst

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters

Academic literature on the topic 'MOO3 / CEO2 / MCM-41 catalyst'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "MOO3 / CEO2 / MCM-41 catalyst"

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Huang, Fang, Weizun Li, Qidong Hou, and Meiting Ju. "Enhanced CH4 Production from Corn-Stalk Pyrolysis Using Ni-5CeO2/MCM-41 as a Catalyst." Energies 12, no. 5 (2019): 774. http://dx.doi.org/10.3390/en12050774.

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Production of syngas from lignocellulosic biomass though pyrolysis is a promising solution for the large-scale utilization of biomass. However, current pyrolysis approaches suffer from the relative low product yield and selectivity, limiting their practical application. To solve this problem, a series of nickel-based catalysts including Ni/MCM-41, Ni-5CeO2/MCM-41, and Ni-5La2O3/MCM-41 were prepared and characterized by transmission electron microscopy (TEM), N2 adsorption–desorption, X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), and H2-temperature-programmed reaction (TPR) a
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Wang, Xiaoliu, Lingjun Zhu, Yincong Liu, and Shurong Wang. "CO2 methanation on the catalyst of Ni/MCM-41 promoted with CeO2." Science of The Total Environment 625 (June 2018): 686–95. http://dx.doi.org/10.1016/j.scitotenv.2017.12.308.

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Song, Zhongxian, Xiang Wu, Qiulin Zhang, et al. "Effect of surface species and structure on the performance of CeO2 and SO42− doped MCM-41 catalyst toward NH3-SCR." RSC Advances 6, no. 73 (2016): 69431–41. http://dx.doi.org/10.1039/c6ra09505d.

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The different structure and surface species on the SCR activity of CeO<sub>2</sub> and SO<sub>4</sub><sup>2−</sup> doped MCM-41 catalysts toward NO reduction by NH<sub>3</sub> were investigated. The sulfated species generated over Cat-A and Cat-B except for Cat-C.
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Saadati-Moshtaghin, Hamid Reza, and Farrokhzad Mohammadi Zonoz. "In situ preparation of CeO2 nanoparticles on the MCM-41 with magnetic core as a novel and efficient catalyst for the synthesis of substituted pyran derivatives." Inorganic Chemistry Communications 99 (January 2019): 44–51. http://dx.doi.org/10.1016/j.inoche.2018.11.010.

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Abdul Fatah, Nor Aiza, Sugeng Triwahyono, and Aishah Abdul Jalil. "EFFECT OF SUPPORT ON MOLYBDENUM OXIDE ACIDITY FOR N-HEPTANE ISOMERIZATION." Jurnal Teknologi 78, no. 8-3 (2016). http://dx.doi.org/10.11113/jt.v78.9561.

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Skeletal isomerization of alkanes into the corresponding branched isomers has attracted many attentions as a reaction to produce clean fuel with high octane quality. In this study, molybdenum oxide (MoO3) catalyst supported on mesostructured silica nanoparticles (MSN), HZSM-5 and MCM-41 activity were being tested towards n-heptane isomerization at 623 K. The catalyst acidity was characterized by using FTIR pre-adsorb pyridine. The results showed that MoO3-MSN possesses highest Lewis acid and lowest Brönsted acid concentrations. The catalytic testing towards n-heptane isomerization showed that
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Zhang, Heng, Chunhao Yang, Shengying Zhao, Tingting Wang, and Wancheng Zhu. "Comparison in thermal stability and catalytic performance of H4PMo11VO40 heteropolyacid supported on mesoporous and macroporous silica materials." Journal of Chemical Research, June 4, 2020, 174751982092599. http://dx.doi.org/10.1177/1747519820925997.

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Ordered mesoporous silica, SBA-15 and MCM-41, and three-dimensionally ordered macroporous SiO2 were used as the supports of H4PMo11VO40 heteropolyacid for methacrolein oxidation. The dispersion and structural evolutions of the heteropolyacid along with thermal treatment were investigated. It was found that the heteropolyacid entered the one-dimensional mesoporous channels of SBA-15 and MCM-41, and the crystallization and growth were limited, leading to high dispersion of the heteropolyacid. However, the thermal stability was decreased under high dispersion. The migration of the heteropolyacid
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Hosseini Abbandanak, Maryam, Majid Taghizadeh, and Naghmeh Fallah. "High-purity hydrogen production by sorption-enhanced methanol steam reforming over a combination of Cu–Zn–CeO2–ZrO2/MCM-41 catalyst and (Li–Na–K) NO3·MgO adsorbent." International Journal of Hydrogen Energy, December 2020. http://dx.doi.org/10.1016/j.ijhydene.2020.11.250.

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Dissertations / Theses on the topic "MOO3 / CEO2 / MCM-41 catalyst"

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BARROS, Thiago Rodrigo Barbosa. "Produção de biodiesel a partir da transesterificação do óleo de soja utilizando o catalisador MOO3/CEO2/MCM-41." Universidade Federal de Campina Grande, 2017. http://dspace.sti.ufcg.edu.br:8080/jspui/handle/riufcg/1544.

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Submitted by Emanuel Varela Cardoso (emanuel.varela@ufcg.edu.br) on 2018-08-23T19:44:24Z No. of bitstreams: 1 THIAGO RODRIGO BARBOSA BARROS – DISSERTAÇÃO (PPGEQ) 2017.pdf: 2174476 bytes, checksum: 3268fd475d20f6eff1be072f2e7fa4e3 (MD5)<br>Made available in DSpace on 2018-08-23T19:44:24Z (GMT). No. of bitstreams: 1 THIAGO RODRIGO BARBOSA BARROS – DISSERTAÇÃO (PPGEQ) 2017.pdf: 2174476 bytes, checksum: 3268fd475d20f6eff1be072f2e7fa4e3 (MD5) Previous issue date: 2017-02-20<br>Capes<br>Biodiesel, que é produzido a partir de óleos vegetais ou gorduras animais através da reação de transesterificaçã
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Book chapters on the topic "MOO3 / CEO2 / MCM-41 catalyst"

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Balcar, Hynek, Pavel Topka, Naděda ilková, Joaquín Pérez-Pariente, and Jiři Čejka. "Metathesis of linear α-olefins with MoO3 supported on MCM-41 catalyst." In Nanoporous Materials IV, Proceedings of the 4th International Symposium on Nanoporous Materials. Elsevier, 2005. http://dx.doi.org/10.1016/s0167-2991(05)80288-5.

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