Preparation of 5-Hydroxymethylfurfural from Cellulose via Fast Depolymerization and Consecutively Catalytic Conversion

The conversion of cellulose to 5-hydroxymethylfurfural (HMF) has been investigated by a one-pot consecutive reaction. At first, cellulose was depolymerised into glucose via a fast degradation of cellulose in molten ZnCl2 in the presence of hydrochloric acid, and the yield of glucose is 75% in 120 s at reaction temperature of 95 oC. Then, DMSO was used as solvent and different kinds of metal chloride were added as catalysts, and the conversion was carried out continuously at 110-130 oC for 0.5-4 h. The yield of HMF was 53% when CrCl3 were used as catalyst. The one-pot two steps conversion was carried out at atmosphere pressure, and it is a simple route to prepare HMF from lignocellulosic feedstock on a large scale.     

离子液体中微波辅助的 Lewis 酸催化纤维素制备 5-羟甲基糠醛

 以离子液体 1-丁基-3-甲基咪唑氯为溶剂, 以 CrCl3•6H2O 为催化剂, 直接转化纤维素生成 5-羟甲基糠醛 (HMF). 考察了微波辐射条件、反应温度、反应时间及催化剂用量对 HMF 产率的影响. 结果表明, 在最佳条件下, HMF 产率可达 55%.     

Studies on silyl furans. II. Halodesilylation of 2-trimethylsilyl-3,4-bis(methoxycarbonyl)furans

Reactions of 2-trimethylsilyl-3,4-bis(methoxycarbonyl)furans 1a,b with sulfuryl chloride, bromine, and iodine monochloride in acetonitrile afforded the corresponding 2-halo-3,4-bis(methoxycarbonyl)furans 2a-f via chloro-, bromo-, and iododesilylation in good yields, respectively. However, the reaction of 1a with bromine in carbon tetrachloride mainly gave 2-bromo- 2b and 2-bromo-5-trimethylsilyl-3,4-bis(methoxycarbonyl)furan ( 3 ) in 37% and 45% yields. Similarly, the reaction of 1a with iodine monochloride afforded 1a , 2-chloro- 2a and 2-iodo-3,4-bis(methoxycarbonyl)furan ( 2c ) in 50%, 27%, and 23% yield.     

Ni-WO3/SBA-15催化剂上纤维素的水解加氢

采用等体积浸渍法制备了Ni-WO₃/SBA-15催化剂,将其应用于纤维素的水相氢解.考察了温度对纤维素水解和其形貌的影响及Ni、WO₃含量等对纤维素转化行为的影响.XRD表征结果表明,随着温度的升高纤维素颗粒粒径逐渐变小并趋于均一,结晶状态逐渐由晶型变为无定型态.H₂-TPR结果表明,Ni和WO₃间存在较强的相互作用,这种相互作用提高了W物种对C-C键的解离性能,同时,提高了Ni物种的加氢活性,促进了纤维素向乙二醇的转化.在3%Ni-15%WO₃/SBA-15催化剂上,反应条件为230 ℃、6.0 MPa、6.0 h时,纤维素完全转化,乙二醇的产率达到70.7%.     

Matrix isolation study of the reaction of dimethyl sulfoxide with CrCl2O2 and OVCl3

The matrix isolation technique, combined with infrared spectroscopy and theoretical calculations, has been employed to investigate the thermal and photochemical reactions of dimethylsulfoxide (DMSO) with CrCl₂O₂ and OVCl₃. Twin jet codeposition leads to formation and isolation of a photochemically unstable 1:1 complex. The photoproduct in the twin jet DMSO + CrCl₂O₂ experiments is identified as dimethyl sulfone, (CH₃)₂SO₂, interacting with the Cl₂CrO fragment, while in the analogous OVCl₃ reaction, the photoproduct bands were too weak to allow product identification. Merged jet codeposition led to rapid gas phase reaction, and in the case of DMSO + CrCl₂O₂, dimethyl sulfone is formed in high yield. This marks the first demonstration of a gas phase thermal oxygen atom transfer from CrCl₂O₂ to an organic substrate. For the reaction of DMSO with OVCl₃, no volatile products are deposited in the matrix and dimethyl sulfone is not a product. These results support differing pathways for the reactions of CrCl₂O₂ and OVCl₃, a conclusion that is supported by density functional calculations.     

Highly efficient preparation of 5-hydroxymethylfurfural from sucrose using ionic liquids and heteropolyacid catalysts in dimethyl sulfoxide–water mixed solvent

Several types of ILs and solid acids were used as catalysts in one-pot conversion of sucrose to 5-hydroxymethylfurfural (abbreviated as 5-HMF) in a dimethyl sulfoxide (DMSO)/water mixed solvent under hydrothermal conditions. A remarkable 5-HMF yield of 91.8% was achieved catalyzed by the cesium salt of dodecatungstophosphoric acid (Cs_2.3H_0.7PW₁₂O₄₀) within 3 h at 180 ℃. The ionic liquid N-methylimidazolium hydrogen sulfate ([Hmim][HSO₄]) gave the 5-HMF in 82.0% yield from sucrose. To the best of our knowledge, it was almost the highest yield of HMF from sucrose by now. Various reaction parameters including reaction temperature and time and catalyst dosage were optimized. A possible mechanism for this catalytic process was proposed. Furthermore, fructose and glucose were also investigated, good yields of 5-HMF was obtained respectively. This increases the possibility of large-scale production of 5-HMF from carbohydrates.     

双功能复合材料g-C3N4/CdS/Ni催化光解水产氢和5-羟甲基糠醛氧化性能

采用高温煅烧法、 原位生长法和光还原法分三步制备出双功能复合光催化剂g-C₃N₄/CdS/Ni. 材料中CdS的引入可以增强光生电子和空穴的分离效率, Ni可以进一步提高光致产氢速率. 在以三乙醇胺(TEOA)为电子给体的水溶液中对所制备的材料进行了催化产氢性能测试, 并对材料中CdS的含量进行了优化. 结果表明, 25% (质量分数)CdS负载量的复合材料催化产氢性能最佳, 其催化产氢速率为4134.5 μmol·g^-1·h^-1, 是 g-C₃N₄/Ni催化产氢速率的115倍. 且Ni是一种良好的质子催化剂. 在此基础上, 以5-羟甲基糠醛(HMF)替代TEOA作为体系的电子给体, 其可以被选择性地催化氧化为增值化学品2, 5-二甲酰基呋喃(DFF). 当体系中HMF的转化率为82.3%, DFF的选择性为69.4%时, DFF的产率(57.2%)达到最高, 体系中H₂的产量为 51.8 μmol/g. g-C₃N₄/CdS/Ni复合材料可以在同一体系中进行催化光致产氢和HMF的选择性氧化.     

Pyrolysis of Glucose over Two Amphoteric Metal Oxides

The catalytic pyrolysis of glucose over amphoteric metal oxide, ZnO or γ-Al2O3, was studied comparatively with direct pyrolysis. The effects of catalyst to glucose ratio on the yields of pyrolytic products and on the chemical composition of the liquid products were discussed. Compared with the pyrolytic products of direct pyrolysis, the amount of residual char decreased, whereas the gas yield increased in the presence of the catalysts. The highest liquid yield over ZnO(49.5%) was obtained when the ratio of ...     

ZnCl_2溶液中微波辅助SnCl_4催化纤维素制备5-HMF

将纤维素溶解在ZnCl_2溶液中,以SnCl_4为催化剂,微波下使纤维素降解成5-羟甲基糠醛(5-HMF)。实验考察了微波功率、纤维素的质量、ZnCl_2溶液浓度、反应时间及催化剂与纤维素物质的量比等对5-HMF产率的影响。结果表明,以SnCl_4为催化剂,在优化条件:1.0 g纤维素溶解在100 m L 70%ZnCl_2溶液中,微波功率为420 W,降解反应9 min,SnCl_4与纤维素物质的量比2∶1下,5-HMF的产率达到39.4%。     

氯化亚铬脱除黄铁矿对桦甸油页岩有机质结构的影响

采用元素分析、~(13)C NMR、XPS和TG-MS技术考察了氯化亚铬(CrCl_2)脱除黄铁矿对桦甸油页岩有机质结构的影响。结果表明,CrCl_2可有效脱除有机质中的黄铁矿,脱除率为96.19%。CrCl_2对有机质的碳骨架结构影响较小,脱除黄铁矿前后有机质中脂碳、芳碳和羧基/羰基碳的相对含量以及有机质的热解特征温度基本保持不变,但CrCl_2可破坏有机质中的C-O键,使C-O/C-OH和O=C-O的含量减少,造成0.98%的有机碳损失和12.54%的有机质损失。CrCl_2处理后,有机质的C含量显著增加,H含量稍有增加,O含量显著降低,使得H/C略微降低,O/C明显降低。另外,CrCl_2处理后,单位质量有机质中脂碳的含量增加了5.28%,使其热解过程中产生了更多的挥发分,残留的氧化铬对有机质的热分解可能也具有促进作用。     

碱催化促进Ni-W/β分子筛催化剂氢解纤维素产1,2-丙二醇的研究

为提高纤维素催化氢解产醇类产物中1,2-丙二醇(1,2-PG)的收率,采用等体积浸渍法制备了以β分子筛为载体负载Ni和W的催化剂。结果表明,当7Ni-20W/β分子筛作为催化剂时,在240℃反应温度和6.0 MPa H_2的条件下反应30 min后,纤维素实现完全转化,1,2-PG和乙二醇(EG)产率分别达到19.3%和45.3%;不同于其他载体催化剂,β分子筛可以明显提高1,2-PG选择性。当不同碱催化剂加入到Ni-W/β分子筛催化剂反应体系后,可以进一步提高1,2-PG的选择性。尤其是当加入Ba(OH)_2后,1,2-丙二醇产率从19.3%提高了32.5%。为了探究碱催化剂在反应中的作用,以葡萄糖为底物进行了一系列的碱催化反应。结果表明,碱催化剂主要作用是有助于将葡萄糖异构化为果糖,从而促进纤维素转化为1,2-PG。催化剂在两次回收重复利用之后1,2-PG的收率只下降3.9%,乙二醇产率收率下降4.1%。     

铜粒子负载泡沫基相变复合材料的制备与性能

以三聚氰胺泡沫(MF)经高温碳化后制得的碳泡沫(CF)为基体, 以氯化铜(CuCl₂)和水合肼(N₂H₄·H₂O)溶液为前驱体, 利用氧化还原反应在泡沫骨架上生成铜粒子, 然后通过真空浸渍法将聚乙二醇(PEG)封装在基体中制得相变复合材料. 利用扫描电子显微镜(SEM)、 X射线衍射仪(XRD)、 差示扫描量热仪(DSC)和红外热成像仪等研究了相变复合材料的形貌、 结构和热性能. 结果表明, 当CuCl₂浓度为1.0 mol/L时, Cu粒子均匀致密地沉积在CF骨架表面, 制得的相变复合材料在具备良好密封性能的前提下, 相变潜热可高达145.2 J/g, 热效率超过80%, 光热转换效率达到83.8%, 且呈现出优异的储热能力和调温性能. 本文为制备综合性能优异的相变复合材料提供了一种策略, 有利于拓宽相变复合材料的应用领域.     

Extraction of Cu(II) from hydrochloric acid media by Amberlite LA-1 hydrochloride dissolved in 1,2-dichloroethane

The extraction of hydrogen chloride by a secondary amine (B), Amberlite LA-1, dissolved in 1,2-dichloroethane was studied by two-phase potentiometric titration. The results, treated by a general minimizing program, indicate dimerization: 2BHCl(BCHl)₂. The equilibrium constant of this reaction was calculated. The extraction of cu(II) from 6M hydrochloric acid by Amberlite LA-1 hydrochloride (BCHl) dissolved in 1,2-dichloroethane, was also studied. The extraction of cu(II) can be explained as due to formation of two species, (BCHl)₂ CuCl₂ and (BCHl)₃ CuCl₂, in the organic phase. The formation constants of these species were calculated.     

NaBH4/MCl x 体系对液体端羧基氟橡胶的还原及还原机理

以液体端羧基氟橡胶(LTCFs)为原料, 硼氢化钠与金属氯化物(NaBH₄/MCl _x )为还原体系, 采用一锅法成功将LTCFs还原为液体端羟基氟橡胶(LTHFs). 研究了多种稀土金属氯化物(LaCl₃, CeCl₃, NdCl₃和SmCl₃）和过渡金属氯化物(MnCl₂, NiCl₂, CoCl₂和CuCl₂)对LTCFs还原效果的影响及变化规律. 采用傅里叶变换红外光谱(FTIR)、 核磁共振氢谱(¹H NMR)、 核磁共振氟谱(¹⁹F NMR)和化学滴定法对原料和产物的分子链结构和官能团含量进行了表征. 结果表明, 稀土金属MCl _x 还原体系对LTCFs的还原效果均高于过渡金属MCl _x 还原体系, LTCFs中的—C=C—和—COOH均可以被还原为—C—C—和—OH, 其中NaBH₄/SmCl₃还原体系还原效率最高, 达到92%. 机理研究表明, NaBH₄/MCl _x 对—COOH的还原性能与MCl _x 中金属阳离子和羰基氧间的结合力有关, 结合力越大越有利于—COOH的还原.     

咪唑类高铼酸盐催化微晶纤维素降解反应研究

以咪唑类高铼酸盐为催化剂,以离子液体1-烯丙基-3-甲基咪唑氯盐([Amim]Cl)为溶剂降解微晶纤维素(MCC)。分别考察反应温度、反应时间、反应物浓度、催化剂用量和结构对纤维素降解反应的影响。结果表明,以5%1-(3-磺酸)丙基-3-甲基咪唑高铼酸盐([mim-(CH_2)_3SO_3H]ReO_4)为催化剂,在微波辅助加热条件下,0.1 g纤维素在2.0 g离子液体[Amim]Cl中于160℃降解30 min,还原糖收率(TRS)和葡萄糖收率最高可达89.6%和46.7%。研究还对咪唑类高铼酸催化纤维素降解反应的催化机理进行讨论,认为催化剂芳环阳离子、ReO-4中Re=O与纤维素分子中羟基的相互作用是促进纤维素降解的关键     

离子液体中磺化无定形炭催化菊糖制备5-羟甲基糠醛

研究了以1-丁基-3-甲基咪唑氯盐([Bmim]Cl)离子液体作溶剂,磺化无定形炭为催化剂催化菊糖脱水制5-羟甲基糠醛(HMF)的反应.考察了溶剂、水量、反应温度、反应时间和催化剂用量对HMF收率的影响.实验结果表明,反应温度为100°C,反应时间60min,R=5(R为水的物质的量与菊糖中所含果糖单位的物质的量的比值),m(催化剂):m(菊糖)=1:3时,HMF的收率可达50%.     

离子液体中18-冠醚-6添加剂对三价铬电沉积的影响

在1-丁基-3-甲基咪唑硫酸氢盐（[BMIM]HSO₄）电镀液中,探究了18-冠醚-6添加剂对电沉积铬的影响. 紫外-可见光谱结果表明,18-冠醚-6与Cr³⁺形成配合物,使最大吸收波长发生红移. 循环伏安研究表明,Cr³⁺的还原经历了两步. 18-冠醚-6的添加使Cr³⁺的峰电位和起始还原电位均正移了220 mV. 能谱仪（EDS）结果显示,在18-冠醚-6的作用下镀层中铬含量有所提高. 铬镀层的扫描电子显微镜（SEM）表征结果表明,加入18-冠醚-6后,所得镀层的颗粒变大. 18-Crown-6/CrCl₃/[BMIM]HSO₄/H₂O电镀液中工艺优化的结果为：在温度为50 ^oC、pH值为3.5、电流密度为1200 A·m^-2、电镀时间为1.5 h的最佳工艺条件下,铬镀层的厚度达到72.5 μm,电流效率为42.3%.     

Synthesis and X-ray crystallographic characterization of copper and iron complexes with tetradentate-N4 ligands: Reactivity towards catechol oxidation

The reaction of copper chloride dihydrate and ferric chloride hexahydrate with a tripodal N₄ ligand (ntb) under mild conditions affords two novel complexes [Cu(ntb)Cl]₂[CuCl₄] · 2H₂O (1) and [Fe(ntb)Cl₂]Cl · 3H₂O (2). The reaction of ferric chloride with another N₄ ligand, bispicpn, forms an octahedral mononuclear complex, [Fe(bispicpn)Cl₂]Cl (3). Single-crystal X-ray structural studies of 1, 2 and 3 reveal the formation of hydrogen-bond sustained 3D, 2D and 1D networks, respectively, involving (N–HO) and (N–HCl) interactions. The packing arrangement in 2 further reveals the existence of hexagonal channels with helical propagation along the diagonal of the crystallographic b- and c-axes. The reactions of these complexes with 3,5-di-tert-butylcatechol have been studied in dimethylformamide. NMR techniques have been used to identify the reaction products.     

利用空间位阻和氢溢流协同作用促进5-羟甲基糠醛选择性加氢制备5-甲基糠醛

化学工业生产中，用氢气为还原剂，通过选择性加氢可以制备多种重要化学品。5-羟甲基糠醛是重要的生物质基平台化合物，而5-甲基糠醛是用途广泛的化学品。由5-羟甲基糠醛加氢得到5-甲基糠醛是一条非常理想的路径，但是选择性活化C-OH非常困难。本文设计并制备了Pt@PVP/Nb₂O₅(PVP: 聚乙烯吡咯烷酮)催化剂，该催化体系巧妙地结合了位阻效应、氢溢流和催化剂界面的电子效应，系统研究了该催化剂对5-羟甲基糠醛选择性加氢制备5-甲基糠醛催化性能，在最优条件下，5-甲基糠醛的选择性可达92%。利用密度泛函理论计算研究了5-羟甲基糠醛选择性加氢制备5-甲基糠醛反应路径。     

利用空间位阻和氢溢流协同作用促进5-羟甲基糠醛选择性加氢制备5-甲基糠醛

Selective hydrogenation is a vital class of reaction. Various unsaturated functional groups in organic compounds, such as aromatic rings, alkynyl (C≡C), carbonyl (C＝O), nitro (-NO₂), and alkenyl (C＝C) groups, are typical targets in selective hydrogenation. Therefore, selectivity is a key indicator of the efficiency of a designed hydrogenation reaction. 5-(Hydroxymethyl)furfural (HMF) is an important platform compound in the context of biomass conversion, and recently, the hydrogenation of HMF to produce fuels and other valuable chemicals has received significant attention. Controlling the selectivity of HMF hydrogenation is paramount because of the different reducible functional groups (C＝O, C-OH, and C＝C) in HMF. Moreover, the exploration of new routes for hydrogenating HMF to valuable chemicals is becoming attractive. 5-Methylfurfural (MF) is also an important organic compound; thus, the selective hydrogenation of HMF to MF is an essential synthetic route. However, this reaction has challenging thermodynamic and kinetic aspects, making it difficult to realize. Herein, we propose a strategy to design a highly efficient catalytic system for selective hydrogenation by exploiting the synergy between steric hindrance and hydrogen spillover. The design and preparation of the Pt@PVP/Nb₂O₅ catalyst (PVP = polyvinyl pyrrolidone; Nb₂O₅ = niobium(V) oxide) were also conducted. Surprisingly, HMF could be converted to MF with 92% selectivity at 100% HMF conversion. The reaction pathway was revealed through the combination of control experiments and density functional theory calculations. Although PVP blocked HMF from accessing the surface of Pt, hydrogen (H₂) could be activated on the surface of Pt due to its small molecular size, and the activated H₂ could migrate to the surface of Nb₂O₅ through a phenomenon called H₂ spillover. The Lewis acidic surface of Nb₂O₅ could not adsorb the C＝O group but could adsorb and activate the C-OH group of HMF; therefore, when HMF was adsorbed on Nb₂O₅, the C-OH groups were hydrogenated by the spilled over H₂ to form MF. The high selectivity of this reaction was realized because of the unique combination of steric effects, hydrogen spillover, and tuning of the electronic states of the Pt and Nb₂O₅ surfaces. This new route for producing MF has great potential for practical application owing to its discovered advantages. We believe that this novel strategy can be used to design catalysts for other selective hydrogenation reactions. Furthermore, this study demonstrates a significant breakthrough in selective hydrogenation, which will be of interest to researchers working on the utilization of biomass, organic synthesis, catalysis, and other related fields.