Synthesis of TiO2-Modified Y Zeolite and its Adsorption-Catalytic Oxidative Desulfurization Performance
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Kamel L, Anbia M (2020) Composite beads of molybdenum oxide supported on textured silicon as an oxidative desulfurization nanocatalyst. SILICON 12:1325–1336
Akopyan AV, Kulikov LA, Polikarpova PD et al (2021) Metal-free oxidative desulfurization catalysts based on porous aromatic frameworks. Ind Eng Chem Res 60:9049–9058
Shiraishi Y, Hirai T, Komasawa I (1998) A deep desulfurization process for light oil by photochemical reaction in an organic two-phase liquid-liquid extraction system. Ind Eng Chem Res 37:203–211
Wang SH, Qin YC et al (2020) Fabrication of effective desulfurization species active sites in the CeY zeolites and the adsorption desulfurization mechanisms. J Fuel Chem Technol 48:52–62
Caero LC, Hernández E, Pedraza F et al (2005) Oxidative desulfurization of synthetic diesel using supported catalysts: Part I. Study of the operation conditions with a vanadium oxide based catalyst. Catal Today 107:564–569
Li XH, Zhang J, Zhou F et al (2018) Oxidative desulfurization of dibenzothiophene and diesel by hydrogen peroxide: Catalysis of H3PMo12O40 immobilized on the ionic liquid modified SiO2. Mol Catal 452:93–99
Wang SY, Li HN, Shi X (2022) Synthesis of a phosphomolybdic acid/nanocrystalline titanium silicalite-1 catalyst in the presence of hydrogen peroxide for effective adsorption-oxidative desulfurization. New J Chem 46:2559–2568
Yang X, Yang WL, Zhang YQ et al (2021) Constructing dual-function TiO2/MWCNTs-NH2-HPW composites as both catalysts and adsorbents for highly efficient oxidative adsorption desulfurization in fuel oil. Energy Fuels 35:20000–20015
Mondol MMH, Bhadra BN, Jhung SH (2021) Molybdenum nitride@porous carbon, derived from phosphomolybdic acid loaded metal-azolate framework-6: A highly effective catalyst for oxidative desulfurization. Appl Catal B 288:119988
He J, Wu PW, Chen LL et al (2021) Dynamically-generated TiO2 active site on MXene Ti3C2: boosting reactive desulfurization. Chem Eng J 416:129022
Haghighi M, Gooneh-Farahani S (2020) Insights to the oxidative desulfurization process of fossil fuels over organic and inorganic heterogeneous catalysts: advantages and issues. Environ Sci Pollut Res Int 27:39923–39945
Taghizadeh M, Mehrvarz E, Taghipour A (2020) Polyoxometalate as an effective catalyst for the oxidative desulfurization of liquid fuels: a critical review. Rev Chem Eng 36:831–858
Dashtpeyma G, Shabanian SR, Ahmadpour J (2022) The investigation of adsorption desulphurization performance using bimetallic Cu-Ce and Ni-Ce mesoporous Y zeolites: Modification of Y zeolite by H4EDTA-NaOH sequential treatment. Fuel Process Technol 235:107379
Mahmoudi V, Kermani AM, Ghahramaninezhad M et al (2021) Oxidative desulfurization of dibenzothiophene by magnetically recoverable polyoxometalate-based nanocatalyst: Optimization by response surface methodology. Mol Catal 509:111611
Banisharif F, Dehghani MR, Capel-Sanchez MC et al (2019) Highly catalytic oxidative desulfurization and denitrogenation of diesel using anchored-silica-gel vanadium-substituted Dawson-type polyoxometalate. Catal Today 333:219–225
Banisharif F, Dehghani MR, Camposmartin JM (2017) Oxidative desulfurization of diesel using vanadium-substituted dawson-type emulsion catalysts. Energy Fuels 31:5419–5427
Boshagh F, Rahmani M, Rostami K et al (2021) Key factors affecting the development of oxidative desulfurization of liquid fuels: a critical review. Energy Fuels 36:98–132
Deng CM, Li J, Kang LH (2022) Efficient Co/SBA-15 catalyst for aerobic oxidative desulfurization at mild reaction temperature. Mol Catal 530:112567
Li SW, Wang W, Zhao JS (2020) Catalytic oxidation of DBT for ultra-deep desulfurization under MoO3 modified magnetic catalyst: the comparison influence on various morphologies of MoO3. Appl Catal A 602:117671
Caero LC, Gomez HB, Fraustro AC et al (2008) Oxidative desulfurization of synthetic diesel using supported catalysts: Part III. Support effect on vanadium-based catalysts. Catal Today 133:244–254
Ma CH, Dai B, Xu CX et al (2013) Deep oxidative desulfurization of model fuel via dielectric barrier discharge plasma oxidation using MnO2 catalysts and combination of ionic liquid extraction. Catal Today 211:84–89
Matsuzawa S, Tanaka J, Sato S et al (2002) Photocatalytic oxidation of dibenzothiophenes in acetonitrile using TiO2: effect of hydrogen peroxide and ultrasound irradiation. J Photochem Photobiol A 149:183–189
Leng KY, Sun YY, Zhang X et al (2016) Ti-modified hierarchical mordenite as highly active catalyst for oxidative desulfurization of dibenzothiophene. Fuel 174:9–16
Zhang ZW, Wei KH, Li C et al (2021) Oxidation Adsorptive Desulfurization of Jet Fuel Using Mesoporous Sieve Loaded with TiO2. Chem Select 6:2913–2918
Rostami S, Nakhaei Pour A, Mohammadi A (2023) Diesel desulfurization by the adsorptive method using promoted Y zeolite by Zn, Cu Co, and Ni metals. J Iran Chem Soc 20:2069–2078
Liao JJ, Wang YS, Chang LP et al (2015) Preparation of M/γ-Al2O3 sorbents and their desulfurization performance in hydrocarbons. RSC Adv 5:62763–62771
Subhan F, Aslam S, Yan Z et al (2018) Ammonia assisted functionalization of cuprous oxide within confined spaces of SBA-15 for adsorptive desulfurization. Chem Eng J 339:557–565
Alvarado-Perea L, Colín-Luna JA, López-Gaona A et al (2020) Simultaneous adsorption of quinoline and dibenzothiophene over Ni-based mesoporous materials at different Si/Al ratio. Catal Today 353:26–38
Mguni LL, Yao Y, Ren JW et al (2021) Modulated synthesized Ni-based MOF with improved adsorptive desulfurization activity. J Cleaner Prod 323:129196
Saleh TA, Sulaiman KO, Al Hammadi SA et al (2017) Adsorptive desulfurization of thiophene, benzothiophene and dibenzothiophene over activated carbon manganese oxide nanocomposite: with column system evaluation. J Cleaner Prod 154:401–412
Saha B, Vedachalam S, Dalai AK (2021) Review on recent advances in adsorptive desulfurization. Fuel Process Technol 214:106685
Khare GP (1993) Absorption of hydrogen sulfide and absorbent composition therefor. Patents. US5306685A
Zhu ZG, Xu H, Jiang JG et al (2016) Postsynthesis and effective Baeyer-Villiger oxidation properties of hierarchical FAU-type stannosilicate. J Phys Chem C 120:23613–23624
Liu WR, Liu XM, Gu Y et al (2020) A new composite consisting of Y zeolite and ZrO2 for fluid catalytic cracking reaction. Compos B 200:108317
Huang WB, Wei Q, Zhou YD et al (2023) Hydrotreating of diesel fuel over in-situ nickel modified Y zeolite supported Ni-Mo-S catalyst. Catal Today 407:135–145
Lu SC, Liu QL, Han R et al (2021) Core-shell structured Y zeolite/hydrophobic organic polymer with improved toluene adsorption capacity under dry and wet conditions. Chem Eng J 409:128194
Lee KX, Valla JA (2019) Adsorptive desulfurization of liquid hydrocarbons using zeolite-based sorbents: a comprehensive review. React Chem Eng 4:1357–1386
Zhang ZY, Liu YL, Hu YJ et al (2023) Facile fabrication of efficient Cu(I)-Y zeolite adsorbent towards the adsorption desulfurization. Microporous Mesoporous Mater 350:112450
Lee KX, Valla JA (2017) Investigation of metal-exchanged mesoporous Y zeolites for the adsorptive desulfurization of liquid fuels. Appl Catal B 201:359–369
Kubacka A, Fernandez-Garcia M, Colon G (2012) Advanced nanoarchitectures for solar photocatalytic applications. Chem Rev 112:1555–1614
Acosta-Silva Y, Nava R, Hernández-Morales V et al (2011) Methylene blue photodegradation over titania-decorated SBA-15. Appl Catal B 110:108–117
Bi ML, Guo Y, Zhang B et al (2023) Titanium dioxide-modified nanosized TS-1 zeolite-supported phosphotungstic acid as a catalyst for deep catalytic oxidative desulfurization of fuel oil. New J Chem 47:12027–12036
Xun SH, Ti QT, Jiao ZX et al (2020) Dispersing TiO2 nanoparticles on graphite carbon for an enhanced catalytic oxidative desulfurization performance. Ind Eng Chem Res 59:18471–18479
Bstr A (2018) Deep oxidative desulfurization of model fuels by prepared nano TiO2 with phosphotungstic acid. Est J Eng 24:11
Naseri H, Mazloom G, Akbari A et al (2021) Investigation of Ni Co, and Zn promoters on Mo/HY modified zeolite for developing an efficient bimetallic catalyst for oxidative desulfurization of dibenzothiophene. Microporous Mesoporous Mater 325:111341
Dadashi M, Mazloom G, Akbari A et al (2020) The performance of micro-meso-pore HY zeolite for supporting Mo toward oxidation of dibenzothiophene. Environ Sci Pollut Res Int 27:30600–30614
Moghadam SA, Mazloom G, Akbari A et al (2022) Supported vanadium oxide catalyst over HY-zeolite-alumina composite fabricated by extrusion for oxidative desulfurization of dibenzothiophene. Mol Catal 532:112731
Xiao YY, Li XJ, Yuan ZH et al (2009) Catalytic dehydration of ethanol to ethylene on TiO2/4A zeolite composite catalysts. Catal Lett 130:308–311
Cheng J, Zhang Z, Zhang X et al (2019) Sulfonated mesoporous Y zeolite with nickel to catalyze hydrocracking of microalgae biodiesel into jet fuel range hydrocarbons. Int J Hydrogen Energy 44:1650–1658
Shirvani S, Ghashghaee M, Kegnæs S (2019) Dual role of ferric chloride in modification of USY catalyst for enhanced olefin production from refinery fuel oil. Appl Catal A 580:131–139
Anandan S, Yoon M (2003) Photocatalytic activities of the nano-sized TiO2-supported Y-zeolites. J Photochem Photobiol C 4:5–18
Yan XM, Mei P, Lei JH et al (2009) Synthesis and characterization of mesoporous phosphotungstic acid/TiO2 nanocomposite as a novel oxidative desulfurization catalyst. J Mol Catal A Chem 304:52–57
Yu Y, Xiong G, Li C et al (2001) Characterization of aluminosilicate zeolites by UV Raman spectroscopy. Microporous Mesoporous Mater 46:23–34
Moreira CR, Pereira MM, Alcobé X et al (2007) Nature and location of cerium in Ce-loaded Y zeolites as revealed by HRTEM and spectroscopic techniques. Microporous Mesoporous Mater 100:276–286
Knops Gerrits PP, De Vos DE, Feijen EJ et al (1997) Raman spectroscopy on zeolites. Microporous Mater 8:3–17
Tian F, Zhang YP, Zhang J et al (2012) Raman spectroscopy: A new approach to measure the percentage of anatase TiO2 exposed (001) facets. J Phys Chem C 116:7515–7519
Petcu G, Anghel EM, Somacescu S et al (2020) Hierarchical zeolite Y containing Ti and Fe oxides as photocatalysts for degradation of amoxicillin. J Nanosci Nanotechnol 20:1158–1169
Kuwahara Y, Magatani Y, Yamashita H (2015) Photocatalytic epoxidation of olefins using molecular O2 by TiO2 incorporated in hydrophobic Y zeolite. Rapid Commun Photoscience 4:19–21
Liu JD, Zhang X, Wang L et al (2022) A simple route to prepare anatase TiO2 films with dominant (001) facet. Mater Lett 318:132225
Alothman ZA (2012) A review: Fundamental aspects of silicate mesoporous materials. Materials 5:2874–2902
Wang LL, Wang W, Liu M et al (2019) Understanding structure-function relationships in HZSM-5 zeolite catalysts for photocatalytic oxidation of isopropyl alcohol. J Catal 377:322–331
Pang CL, Xiong JH, Li GY et al (2018) Direct ring CH bond activation to produce cresols from toluene and hydrogen peroxide catalyzed by framework titanium in TS-1. J Catal 366:37–49
Yu ZD, Huang XY, Xun SH et al (2020) Synthesis of carbon nitride supported amphiphilic phosphotungstic acid based ionic liquid for deep oxidative desulfurization of fuels. J Mol Liq 308:113059
Mei H, Mei BW, Yen TF (2003) A new method for obtaining ultra-low sulfur diesel fuel via ultrasound assisted oxidative desulfurization. Fuel 82:405–414
Bi ML, Song SJ, Zhang B et al (2022) In situ encapsulated molybdovanaphosphodic acid on modified nanosized TS-1 zeolite catalyst for deep oxidative desulfurization. Microporous Mesoporous Mater 335:111799