The excellent performance of amorphous Cr2O3, SnO2, SrO and graphene oxide–ferric oxide in glucose conversion into 5-HMF
暂无分享,去创建一个
[1] J. Beltramini,et al. Catalytic Conversion of Glucose to 5‐Hydroxymethyl‐furfural with a Phosphated TiO2 Catalyst , 2015 .
[2] B. Cheng,et al. Exfoliated graphite as a filler to improve poly(phenylene sulfide) electrical conductivity and mechanical properties , 2015 .
[3] Iker Agirrezabal-Telleria,et al. Heterogeneous acid-catalysts for the production of furan-derived compounds (furfural and hydroxymethylfurfural) from renewable carbohydrates: A review , 2014 .
[4] N. R. Kamini,et al. Enzymatic transesterification for production of biodiesel using yeast lipases: An overview , 2014 .
[5] Shijie Liu,et al. Zeolite-promoted transformation of glucose into 5-hydroxymethylfurfural in ionic liquid , 2014 .
[6] Zehui Zhang,et al. Catalytic conversion of fructose into furans using FeCl3 as catalyst , 2014 .
[7] A. Chinnappan,et al. Ionic liquid with metal complexes: An efficient catalyst for selective dehydration of fructose to 5-hydroxymethylfurfural , 2014 .
[8] W. Li,et al. Catalytic conversion of fructose and sucrose to 5-hydroxymethylfurfural using simple ionic liquid/DMF binary reaction media , 2013 .
[9] B. Cheng,et al. Effective conversion sucrose into 5-hydroxymethylfurfural by tyrosine in [Emim]Br , 2013 .
[10] Bin Shen,et al. Lightweight, multifunctional polyetherimide/graphene@Fe3O4 composite foams for shielding of electromagnetic pollution. , 2013, ACS applied materials & interfaces.
[11] Jimmy C. Yu,et al. Graphene oxide–Fe2O3 hybrid material as highly efficient heterogeneous catalyst for degradation of organic contaminants , 2013 .
[12] Hua-ming Li,et al. The dehydration of fructose to 5-hydroxymethylfurfural efficiently catalyzed by acidic ion-exchange resin in ionic liquid. , 2013, Bioresource technology.
[13] Taejin Kim,et al. Glucose and fructose to platform chemicals: understanding the thermodynamic landscapes of acid-catalysed reactions using high-level ab initio methods. , 2012, Physical chemistry chemical physics : PCCP.
[14] Ningbo Gao,et al. FeCl3 and acetic acid co-catalyzed hydrolysis of corncob for improving furfural production and lignin removal from residue. , 2012, Bioresource technology.
[15] D. Vlachos,et al. Conversion of Xylose to Furfural Using Lewis and Brønsted Acid Catalysts in Aqueous Media , 2012 .
[16] István T. Horváth,et al. Valorization of Biomass: Deriving More Value from Waste , 2012, Science.
[17] W. Chung,et al. Facile catalytic dehydration of fructose to 5-hydroxymethylfurfural by Niobium pentachloride , 2012 .
[18] T. A. Nijhuis,et al. The effect of solvent addition on fructose dehydration to 5-hydroxymethylfurfural in biphasic system over zeolites , 2012 .
[19] Zhiping Luo,et al. One-pot synthesis of magnetic graphene nanocomposites decorated with core@double-shell nanoparticles for fast chromium removal. , 2012, Environmental science & technology.
[20] Hua Zhang,et al. Graphene-based composites. , 2012, Chemical Society reviews.
[21] X. Qian. Mechanisms and energetics for acid catalyzed β-D-glucose conversion to 5-hydroxymethylfurfurl. , 2011, The journal of physical chemistry. A.
[22] Jing Kong,et al. Photocatalytic patterning and modification of graphene. , 2011, Journal of the American Chemical Society.
[23] R. Ruoff,et al. The chemistry of graphene oxide. , 2010, Chemical Society reviews.
[24] Jinliang Song,et al. Efficient conversion of glucose into 5-hydroxymethylfurfural catalyzed by a common Lewis acid SnCl4 in an ionic liquid , 2009 .
[25] A. Corma. Materials chemistry: Catalysts made thinner , 2009, Nature.
[26] Yongsheng Chen,et al. Superparamagnetic graphene oxide–Fe3O4nanoparticles hybrid for controlled targeted drug carriers , 2009 .
[27] R. Stoltenberg,et al. Evaluation of solution-processed reduced graphene oxide films as transparent conductors. , 2008, ACS nano.
[28] Xianluo Hu,et al. α‐Fe2O3 Nanorings Prepared by a Microwave‐Assisted Hydrothermal Process and Their Sensing Properties , 2007 .
[29] Johnathan E. Holladay,et al. Metal Chlorides in Ionic Liquid Solvents Convert Sugars to 5-Hydroxymethylfurfural , 2007, Science.
[30] C. Moreau,et al. Dehydration of fructose and sucrose into 5-hydroxymethylfurfural in the presence of 1-H-3-methyl imidazolium chloride acting both as solvent and catalyst , 2006 .
[31] Imre Dékány,et al. Evolution of surface functional groups in a series of progressively oxidized graphite oxides , 2006 .
[32] C. Moreau,et al. Dehydration of fructose into 5-hydroxymethylfurfural in the presence of ionic liquids , 2003 .
[33] Zhicheng Zhang,et al. Fabrication and Characterization of the Plate-Shaped γ-Fe2O3 Nanocrystals , 2002 .