Mechanism of Bronsted Acid-Catalyzed Glucose Dehydration

被引:144
作者
Yang, Liu [1 ]
Tsilomelekis, George [1 ]
Caratzoulas, Stavros [1 ]
Vlachos, Dionisios G. [1 ]
机构
[1] Univ Delaware, Dept Chem & Biomol Engn, Catalysis Ctr Energy Innovat, Newark, DE 19716 USA
来源
CHEMSUSCHEM | 2015年 / 8卷 / 08期
关键词
abinitio calculations; kinetics; isotopic labeling; NMR spectroscopy; reaction mechanisms; MOLECULAR-ORBITAL METHODS; REACTION NETWORK GENERATION; GAUSSIAN-TYPE BASIS; FURFURYL ALCOHOL; HIGH-TEMPERATURE; HYDROGEN-TRANSFER; LEVULINIC ACID; D-FRUCTOSE; CONVERSION; BIOMASS;
D O I
10.1002/cssc.201403264
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
We present the first DFT-based microkinetic model for the BrOnsted acid-catalyzed conversion of glucose to 5-hydroxylmethylfurfural (HMF), levulinic acid (LA), and formic acid (FA) and perform kinetic and isotopic tracing NMR spectroscopy mainly at low conversions. We reveal that glucose dehydrates through a cyclic path. Our modeling results are in excellent agreement with kinetic data and indicate that the rate-limiting step is the first dehydration of protonated glucose and that the majority of glucose is consumed through the HMF intermediate. We introduce a combination of 1)automatic mechanism generation with isotopic tracing experiments and 2)elementary reaction flux analysis of important paths with NMR spectroscopy and kinetic experiments to assess mechanisms. We find that the excess formic acid, which appears at high temperatures and glucose conversions, originates from retro-aldol chemistry that involves the C6 carbon atom of glucose.
引用
收藏
页码:1334 / 1341
页数:8
相关论文
共 47 条
[1]   Catalytic conversion of biomass to biofuels [J].
Alonso, David Martin ;
Bond, Jesse Q. ;
Dumesic, James A. .
GREEN CHEMISTRY, 2010, 12 (09) :1493-1513
[2]   KINETIC-STUDIES OF THE REACTIONS OF KETOSES AND ALDOSES IN WATER AT HIGH-TEMPERATURE .1. MECHANISM OF FORMATION OF 5-(HYDROXYMETHYL)-2-FURALDEHYDE FROM D-FRUCTOSE AND SUCROSE [J].
ANTAL, MJ ;
MOK, WSL ;
RICHARDS, GN .
CARBOHYDRATE RESEARCH, 1990, 199 (01) :91-109
[3]   KINETIC-STUDIES OF THE REACTIONS OF KETOSES AND ALDOSES IN WATER AT HIGH-TEMPERATURE .3. MECHANISM OF FORMATION OF 2-FURALDEHYDE FROM D-XYLOSE [J].
ANTAL, MJ ;
LEESOMBOON, T ;
MOK, WS ;
RICHARDS, GN .
CARBOHYDRATE RESEARCH, 1991, 217 :71-85
[4]   Kinetics of the decomposition of fructose catalyzed by hydrochloric acid in subcritical water: Formation of 5-hydroxymethylfurfural, levulinic, and formic acids [J].
Asghari, Feridoun Salak ;
Yoshida, Hiroyuki .
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2007, 46 (23) :7703-7710
[5]   Glucose and fructose to platform chemicals: understanding the thermodynamic landscapes of acid-catalysed reactions using high-level ab initio methods [J].
Assary, Rajeev S. ;
Kim, Taejin ;
Low, John J. ;
Greeley, Jeff ;
Curtiss, Larry A. .
PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2012, 14 (48) :16603-16611
[6]   Comparison of Sugar Molecule Decomposition through Glucose and Fructose: A High-Level Quantum Chemical Study [J].
Assary, Rajeev S. ;
Curtiss, Larry A. .
ENERGY & FUELS, 2012, 26 (02) :1344-1352
[7]   Mechanistic Insights into the Decomposition of Fructose to Hydroxy Methyl Furfural in Neutral and Acidic Environments Using High-Level Quantum Chemical Methods [J].
Assary, Rajeev S. ;
Redfern, Paul C. ;
Greeley, Jeffrey ;
Curtiss, Larry A. .
JOURNAL OF PHYSICAL CHEMISTRY B, 2011, 115 (15) :4341-4349
[8]   Quantum calculation of molecular energies and energy gradients in solution by a conductor solvent model [J].
Barone, V ;
Cossi, M .
JOURNAL OF PHYSICAL CHEMISTRY A, 1998, 102 (11) :1995-2001
[9]   DENSITY-FUNCTIONAL THERMOCHEMISTRY .3. THE ROLE OF EXACT EXCHANGE [J].
BECKE, AD .
JOURNAL OF CHEMICAL PHYSICS, 1993, 98 (07) :5648-5652
[10]   Conversion of Biomass into Chemicals over Metal Catalysts [J].
Besson, Michele ;
Gallezot, Pierre ;
Pinel, Catherine .
CHEMICAL REVIEWS, 2014, 114 (03) :1827-1870
12345