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Journal of Carbohydrate Chemistry Volume 16, 1997 - Issue 4-5
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COMMUNICATION

Hydrolysis of Fructose and Glucose Precursors in the Presence of H-form ZeolitesFootnote1

Claude Moreau Laboratoire de Matériaux Catalytiques et Catalyse en Chimie Organique, UMR 5618 CNRS/ENSCM, Ecole Nationale Supérieure de Chimie, 8, Rue de l'Ecole Normale, 34296, Montpellier, Cedex 5, France
,
Robert Durand Laboratoire de Matériaux Catalytiques et Catalyse en Chimie Organique, UMR 5618 CNRS/ENSCM, Ecole Nationale Supérieure de Chimie, 8, Rue de l'Ecole Normale, 34296, Montpellier, Cedex 5, France
,
Jean Duhamet CEA, DCC/DRDD/SEMP/SGC, BP 171, 30207, Bagnols-sur-Cèze Cedex, France
&
Patrick Rivalier CEA, DCC/DRDD/SEMP/SGC, BP 171, 30207, Bagnols-sur-Cèze Cedex, France
Pages 709-714 | Accepted 18 Nov 1996, Published online: 20 Aug 2006

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H. A. Abd El‐Rehim & E. M. El‐Nesr. (2006) Radiation Induced Crosslinking of Ethylene Vinyl Acetate Copolymers Hosting Sulfonic Acid Groups and Their Potential Applications. Journal of Macromolecular Science, Part A 43:6, pages 909-922.
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H. Iloukhani, S. Azizian & N. Samadani. (2002) Hydrolysis of Sucrose by Heterogeneous Catalysis. Physics and Chemistry of Liquids 40:2, pages 159-165.
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Articles from other publishers (32)

Yongjian Zeng, Zhiwei Jiang, Di Hu, Ruichao Guo & Kai Yan. (2023) Minireview on the Mechanism for the Production of 5-hydroxymethylfurfural from Biomass. Current Green Chemistry 10:2, pages 109-117.
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Muhammad Sajid, Usman Farooq, Ghulam Bary, Muhammad Mohsin Azim & Xuebing Zhao. (2021) Sustainable production of levulinic acid and its derivatives for fuel additives and chemicals: progress, challenges, and prospects. Green Chemistry 23:23, pages 9198-9238.
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Zhiwei Jiang, Di Hu, Zhiyue Zhao, Zixiao Yi, Zuo Chen & Kai Yan. (2021) Mini-Review on the Synthesis of Furfural and Levulinic Acid from Lignocellulosic Biomass. Processes 9:7, pages 1234.
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Guilherme P. Campos, Elise M. Albuquerque, Marco A. Fraga & Heloise O. Pastore. (2021) Continuous Cellobiose Hydrolysis over Lamellar Aluminosilicates—Unveiling [Al]-magadiite Water-Tolerant Acid Sites. Industrial & Engineering Chemistry Research 60:13, pages 4794-4805.
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Jian He, Hu Li, Shunmugavel Saravanamurugan & Song Yang. (2018) Catalytic Upgrading of Biomass‐Derived Sugars with Acidic Nanoporous Materials: Structural Role in Carbon‐Chain Length Variation. ChemSusChem 12:2, pages 347-378.
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Iris Fornefett & Christoph Buttersack. (2018) Exo-enzyme like degradation of a polysaccharide by an inorganic solid acid catalyst. Carbohydrate Polymers 187, pages 126-132.
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Su Cheun Oh, Thien Nguyendo, Yao He, Amanda Filie, Yiqing Wu, Dat T. Tran, Ivan C. Lee & Dongxia Liu. (2017) External surface and pore mouth catalysis in hydrolysis of inulin over zeolites with different micropore topologies and mesoporosities. Catalysis Science & Technology 7:5, pages 1153-1166.
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Hu Li, Song Yang, Anders Riisager, Ashok Pandey, Rajender S. Sangwan, Shunmugavel Saravanamurugan & Rafael Luque. (2016) Zeolite and zeotype-catalysed transformations of biofuranic compounds. Green Chemistry 18:21, pages 5701-5735.
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T. Ennaert, W. Schutyser, J. Dijkmans, M. Dusselier & B.F. Sels. 2016. Zeolites and Zeolite-Like Materials. Zeolites and Zeolite-Like Materials 371 431 .
Prasenjit Bhaumik & Paresh Laxmikant Dhepe. 2015. Biomass Sugars for Non-Fuel Applications. Biomass Sugars for Non-Fuel Applications 1 53 .
Kai Yan, Cody Jarvis, Jing Gu & Yong Yan. (2015) Production and catalytic transformation of levulinic acid: A platform for speciality chemicals and fuels. Renewable and Sustainable Energy Reviews 51, pages 986-997.
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Yao He, Thomas C. Hoff, Laleh Emdadi, Yiqing Wu, Judicael Bouraima & Dongxia Liu. (2014) Catalytic consequences of micropore topology, mesoporosity, and acidity on the hydrolysis of sucrose over zeolite catalysts. Catalysis Science & Technology 4:9, pages 3064.
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Mariam Karaki, Ali Karout, Joumana Toufaily, Franck Rataboul, Nadine Essayem & Bénédicte Lebeau. (2013) Synthesis and characterization of acidic ordered mesoporous organosilica SBA-15: Application to the hydrolysis of cellobiose and insight into the stability of the acidic functions. Journal of Catalysis 305, pages 204-216.
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Robert-Jan van Putten, Jan C. van der Waal, Ed de Jong, Carolus B. Rasrendra, Hero J. Heeres & Johannes G. de Vries. (2013) Hydroxymethylfurfural, A Versatile Platform Chemical Made from Renewable Resources. Chemical Reviews 113:3, pages 1499-1597.
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N. S. Langeroodi, J. Asghari & M. Ghaemi. (2013) Catalytic hydrolysis of sucrose in the presence of vanadium oxide nanoparticles on SiO2. Russian Chemical Bulletin 61:9, pages 1822-1824.
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N. Samadani Langeroodi. (2012) Silica-supported vanadium oxide nanoparticles as efficient heterogeneous catalyst for hydrolysis of sucrose. Russian Journal of Physical Chemistry A 86:4, pages 628-631.
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R. Kourieh, S. Bennici, M. Marzo, A. Gervasini & A. Auroux. (2012) Investigation of the WO3/ZrO2 surface acidic properties for the aqueous hydrolysis of cellobiose. Catalysis Communications 19, pages 119-126.
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Matteo Marzo, Antonella Gervasini & Paolo Carniti. (2012) Hydrolysis of disaccharides over solid acid catalysts under green conditions. Carbohydrate Research 347:1, pages 23-31.
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Elif G?rb?z, Drew Braden & James Dumesic. 2011. Renewable Resources and Renewable Energy. Renewable Resources and Renewable Energy 37 73 .
Birgit Kamm, Mirko Gerhardt & Sebastian Leiß. 2010. Thermochemical Conversion of Biomass to Liquid Fuels and Chemicals. Thermochemical Conversion of Biomass to Liquid Fuels and Chemicals 46 66 .
Annegret Stark & Bernd Ondruschka. 2010. Handbook of Green Chemistry. Handbook of Green Chemistry 93 121 .
Sérgio Lima, Margarida M. Antunes, Auguste Fernandes, Martyn Pillinger, Maria Filipa Ribeiro & Anabela A. Valente. (2010) Acid-Catalysed Conversion of Saccharides into Furanic Aldehydes in the Presence of Three-Dimensional Mesoporous Al-TUD-1. Molecules 15:6, pages 3863-3877.
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Amélia P. Rauter, Nuno M. Xavier, Susana D. Lucas & Miguel Santos. 2010. 29 99 .
Birgit Kamm, Mirko Gerhardt & Sebastian Leiß. (2009) Bioraffinerie: Wo kommen die Chemikalien her?. Nachrichten aus der Chemie 57:12, pages 1182-1187.
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Juben N. Chheda, George W. Huber & James A. Dumesic. (2007) Liquid-Phase Catalytic Processing of Biomass-Derived Oxygenated Hydrocarbons to Fuels and Chemicals. Angewandte Chemie International Edition 46:38, pages 7164-7183.
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Juben N. Chheda, George W. Huber & James A. Dumesic. (2007) Katalytische Flüssigphasenumwandlung oxygenierter Kohlenwasserstoffe aus Biomasse zu Treibstoffen und Rohstoffen für die Chemiewirtschaft. Angewandte Chemie 119:38, pages 7298-7318.
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Amélia P. Rauter, Tânia Almeida, Nuno M. Xavier, Filipa Siopa, Ana I. Vicente, Susana D. Lucas, João P. Marques, Fernando Ramôa Ribeiro, Michel Guisnet & Maria J. Ferreira. (2007) Acid zeolites as efficient catalysts for O- and S-glycosylation. Journal of Molecular Catalysis A: Chemical 275:1-2, pages 206-213.
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Avelino Corma, Sara Iborra & Alexandra Velty. (2007) Chemical Routes for the Transformation of Biomass into Chemicals. Chemical Reviews 107:6, pages 2411-2502.
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Amélia P. Rauter, Tânia Almeida, Ana I. Vicente, Verónica Ribeiro, João C. Bordado, João P. Marques, Fernando Ramôa Ribeiro, Maria J. Ferreira, Conceição Oliveira & Michel Guisnet. (2006) Reactions of N‐, S‐ and O‐Nucleophiles with 3,4,6‐Tri‐ O ‐benzyl‐ D ‐glucal Mediated by Triphenylphosphane Hydrobromide versus Those with HY Zeolite . European Journal of Organic Chemistry 2006:10, pages 2429-2439.
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Luis A.M.M Barbosa & Rutger A van Santen. (2001) Theoretical study of nitrile hydrolysis reaction on Zn(II) ion exchanged zeolites. Journal of Molecular Catalysis A: Chemical 166:1, pages 101-121.
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Claude Moreau, Robert Durand, Fr?d?ric Ali?s, Michel Cotillon, Thierry Frutz & Marc-Andr? Th?oleyre. (2000) Hydrolysis of sucrose in the presence of H-form zeolites. Industrial Crops and Products 11:2-3, pages 237-242.
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Jean-Fran?ois Chapat, Annie Finiels, Jacques Joffre & Claude Moreau. (1999) Synthesis of Butyl-? and ?-D-Glucopyranosides in the Presence of Dealuminated H?Y Faujasites: Kinetic Study, Mechanism, Stereoelectronic Effects, and Microreversibility Principle. Journal of Catalysis 185:2, pages 445-453.
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