简便方法合成含铁石墨相氮化碳材料及其催化苯直接羟基化制苯酚（英文）

苯酚是一种重要的基本有机化工原料.全球近90%的苯酚都是经"三步异丙苯法"工艺合成而得,但是该工艺存在单程苯酚收率低(5%)、酸污染严重等不足.同时由于联产丙酮,苯酚的产量也受丙酮市场所制约.由苯经氧化或羟基化一步法合成苯酚是催化化学领域中一项极具挑战的课题.由于苯分子较难活化,而苯酚易于深度氧化,因此研发和设计具有高活性和高选择性的催化剂是该课题的研究核心.因具有诸多特殊的理化性质,石墨相氮化碳(g-C_3N_4)作为一种新型碳质材料近年来在光催化、热催化、燃料电池和气体吸附等领域展示出广阔的应用前景.g-C_3N_4的类石墨层基本单元为大π共轭的三均三嗪环,对苯分子具有良好的吸附和活化能力.目前,g-C_3N_4(尤其是具有高比表面的介孔材料)在苯Friedel-Crafts烷基化和酰基化反应、苯的CO2氧化等反应中均显示了良好的催化活性.尽管如此,由于缺乏合适的氧化活性中心,纯的g-C_3N_4对苯直接羟基化几乎无催化活性.本课题组曾将乙酰丙酮氧钒和氧化钒负载至介孔g-C_3N_4,发现该类催化剂在H2O2参与的苯直接羟基化反应中,苯转化率高达18%,而苯酚选择性大于95%.然而,此类介孔g-C_3N_4均采用硬模板法合成,制备周期长且需要HF溶液蚀刻氧化硅模板.另外,钒基组分在介孔g-C_3N_4表面也存在着部分溶脱现象.本文以FeCl_3和二氰二胺为前驱体,通过一步热解法直接合成了含铁的g-C_3N_4材料(Fe-g-C_3N_4).采用N2吸附-脱附、XRD、TG、FT-IR、UV-vis、XPS光谱和TEM对材料的理化性质进行表征.结果显示,Fe的原位引入能显著提高g-C_3N_4的比表面积和孔体积,且使其依然保持石墨相结构.同时,富N的g-C_3N_4材料能有效地锚定Fe离子,使其均匀地分散在载体表面.作为多相催化剂,Fe-g-C_3N_4在H_2O_2环境下对苯羟基化合成苯酚的反应表现出较高的催化活性.当反应温度为60°C,其苯酚收率最高可达17.5%,且回收使用多次催化剂活性表现稳定.与之前报道的含铁和负载氧化钒或乙酰丙酮氧钒的g-C_3N_4催化剂材料相比,Fe-g-C_3N_4催化剂制备工艺更加简便.     

奎宁-杂多酸杂化催化剂催化H2O2为氧源的苯羟基化反应

将奎宁与Keggin结构磷钼钒杂多酸结合制备出一种新颖的多相苯羟基化杂化催化剂, 采用傅里叶变换红外光谱、紫外-可见光谱、X射线衍射、扫描电镜、热重、N₂吸附-脱附和CHN元素分析等表征手段对催化剂进行了分析. 结果表明, 该催化剂是一种具有较高比表面积和孔体积的半无定形有机杂多酸盐. 在H₂O₂为氧源的苯羟基化反应中, 杂化催化剂引导了液-固两相催化体系, 表现出较高催化活性和重复使用稳定性. 催化剂中奎宁与杂多阴离子间的氢键和电子相互作用赋予了其高熔点和难溶性, 而高比表面积和因奎宁而改善的杂多阴离子的氧化还原性是其获得优异催化性能的主要原因. 这为多相苯羟基化反应提供了一种新的且制备便捷的基于多金属氧酸盐的高效催化剂.     

基于多金属氧酸盐的介孔离子催化剂催化苯一步氧化制苯酚（英文）

苯酚是一种重要的有机化工原料,工业上主要采用合成路线长、原子利用率低、能耗高、环境污染严重的异丙苯法生产.当前,随着绿色化学的普及,H_2O_2催化苯一步氧化制苯酚受到越来越多的关注.在研究的众多催化剂中,钒取代杂多酸被认为是该反应最有效的催化剂之一.然而,纯杂多酸易溶于H_2O_2催化的苯羟基化反应体系,导致污染严重、后处理和分离困难.为了获得可回收的固体杂多酸催化剂,通常将其负载于多孔载体上,但这种方法常伴随着活性组分易溶脱,反应速率慢等缺点.因此,在H_2O_2催化苯一步氧化制苯酚体系中获得高效、可重复使用的杂多酸基固体催化剂仍然是一个挑战.采用有机单元修饰杂多酸是制备杂多酸基固体催化剂的有效方法.研究表明,有机基团的引入可以有效调控杂多酸的溶解性和氧化还原性.另一方面,催化剂中的疏水微环境也能有效促进非极性底物与催化活性中心的相互作用,提高反应速率,改善催化活性.因此,我们通过离子交换法将对二甲苯型双核咪唑离子液体阳离子与含钒杂多阴离子结合,研究制备了一种具有疏水微环境的介孔杂多酸基离子固体催化剂.采用傅里叶变换红外光谱、X射线衍射、扫描电镜、N2吸附-脱附和CHN元素分析等表征手段对催化剂进行全面分析.结果表明,该催化剂是一种具有较高比表面积的半无定形疏水有机杂多酸盐.在H_2O_2催化的苯一步氧化制苯酚反应中引导了液-固两相催化体系,在反应时间1 h,反应温度70 oC,苯酚产率可达到28.9%,与均相纯杂多酸的催化活性基本相当,且催化剂重复使用性能良好.催化剂构效关系和反应动力学研究表明,高比表面积和疏水微环境的构建加快了苯与催化活性中心的相互作用,提高了催化反应速率和产物选择性.同时,咪唑基离子液体阳离子通过分子内的电子相互作用改善了杂多阴离子的氧化还原能力,也赋予固体催化剂更高的催化活性.该研究为H_2O_2催化苯一步氧化制苯酚反应提供了一种制备简单,经济高效,可重复使用的杂多酸基固体催化剂.     

V@CN催化的芳烃的氧气羟基化反应

制备了V@CN催化剂,并用于氧气条件下芳烃的直接羟基化反应。结果表明,在V@CN催化剂作用下,带有不同吸电子基团(CN, NO2, COOH, CF3和COCH3)的芳烃均可被O2氧化得到相应的酚,产率中等。含有卤素(F, Cl和Br)的芳烃也可在该催化体系作用下转化为相应的酚。     

掺杂Fe作为第二种金属组分的V-HMS催化剂的苯羟基化反应

采用浸渍法在V-HMS中引入第二种金属组分(Fe、Al、Cu、Ni、Co、Mo、Cr)以提高催化剂在H2O2为氧化剂的苯羟基化反应中的催化性能.筛选发现,Fe在所研究的金属组分中最为有效.进一步采用共合成法制备了一系列FexVy-HMS催化剂.采用粉末X射线衍射、N2物理吸附、透射电子显微镜、NH3程序升温脱附、H2程序升温还原等手段对催化剂的结构和性质进行表征,结果表明,HMS仍保持介孔结构,Fe的加入在催化剂中产生了新的酸性位和更强的氧化还原性.在苯羟基化反应中,钒物种是反应活性物种,铁物种起助剂作用,其中Fe0.04V0.06-HMS具有最高的催化活性,苯酚收率由不含Fe的Fe0.00V0.06-HMS的13.1%提高到18.1%.提出了Fe、V参与反应过程的可能机理.     

One-Step Hydroxylation of Benzene to Phenol Induced by Glow Discharge Plasma in an Aqueous Solution

Direct phenol synthesis from benzene in aqueous solution where water was used as the oxidant through glow discharge plasma (GDP) process was described for the first time. The effect of pH, ferrous and cupric ions on the phenol yield and selectivity was examined. Phenol yield of 8.3% and selectivity of 81% has been achieved.     

VOx/SiO2-Al2O3催化剂催化苯羟基化制苯酚

以硅溶胶为硅源、偏铝酸钠为铝源及环己胺合成SiO2-Al2O3复合氧化物,并采用水热合成法合成了VOx/SiO2-Al2O3催化剂。采用XRD、SEM、TEM、XPS、NH3-TPD、N2物理吸/脱附等手段对此催化剂和复合氧化物微观结构进行表征分析。由表征结果可知钒活性中心能够高分散于此复合氧化物表面,VOx/SiO2-Al2O3催化剂呈现层片积雪状;当钒的含量为4%时,催化剂中V4+含量最大且总酸量契合于此反应所需要的催化酸环境。探究了4%VOx/SiO2-Al2O3催化剂对苯羟基化制苯酚反应的催化性能,结果表明：基于高分散活性中心、V4+含量最大及载体酸性环境等优点而表现出良好的催化性能,苯转化率为48.1%,苯酚选择性为99.6%。     

石墨相氮化碳负载钒作为多相催化剂用于苯直接氧化制苯酚

苯酚是一种重要的化工原料,目前苯酚的工业生产路线普遍存在工艺流程复杂、苯酚收率低和环境污染严重等问题.为实现苯酚的绿色生产,苯直接氧化制苯酚的合成路线受到各国研究者的广泛关注.在苯直接羟基化反应常用的 N2O, O2和 H2O2三类氧化剂中, N2O由于来源有限,其工业应用受到极大限制;而 O2不易活化,且反应过程中常需还原剂存在,苯酚收率低;相比之下, H2O2作为氧化剂,其唯一副产物是 H2O,而且反应条件温和,因而以 H2O2为氧化剂的苯羟基化反应是最具工业应用前景的苯酚合成路线.然而,由于苯分子中的 C?H键非常稳定,活化能较高,同时产物苯酚的反应活性要高于反应物苯,因此,为实现苯的高效转化,积极探索研究高活性和稳定性的催化剂变得尤为重要.在我们之前的研究中发现,包含大π体系的氧化石墨烯载体有利于具有同样π共轭体系的反应物苯的吸附,进而促进苯的转化,提高反应活性.而石墨相氮化碳(g-C3N4)具有与氧化石墨烯类似的π共轭体系,且表面具有大量的活性位点和缺陷位,对苯环类物质具有较好的活化作用,这使其可能成为更优异的载体材料.基于此,以 g-C3N4为载体,采用浸渍法制备了一系列不同钒含量的催化剂xV/g-C3N4,并通过 XRD, FT-IR, TEM, TG等表征技术对催化剂进行了系统研究,以期揭示催化剂结构与反应活性之间的构效关系. XRD的表征结果表明,xV/g-C3N4仍具有载体 g-C3N4的层状堆积结构,且该结构不受钒负载量变化的影响.同时, xV/g-C3N4中钒物种的分散度较高,未发生团聚晶化.更直观地,通过 TEM观察发现,xV/g-C3N4中的钒物种均匀分散. FT-IR的表征结果说明钒物种与 g-C3N4之间存在较强的相互作用.此外,通过 TG表征发现, g-C3N4高温稳定性较好,即使焙烧温度高达550°C,其结构仍不受影响.综上所述,在xV/g-C3N4催化剂中,载体 g-C3N4的结构非常稳定,经负载钒物种以及焙烧处理后仍能保持不变;而钒物种与 g-C3N4之间存在较强的相互作用,且均匀分散,使催化剂具有较高的稳定性和较好的催化性能.在以 H2O2为氧化剂,80 wt%醋酸溶液为溶剂的苯直接氧化制苯酚反应中,xV/g-C3N4催化剂显示了良好的催化活性,其中反应活性最高的是8V/g-C3N4催化剂,在最佳反应条件下,苯酚的收率和选择性分别达到24.4%和99.2%.同时,通过计算 TOF值发现,8V/g-C3N4的 TOF值高达13.1 h-1,远高于文献中报道的以 C3N4为载体的催化剂的 TOF值(0.52–0.59 h-1),这表明xV/g-C3N4催化剂具有优异的催化活性.此外,以8V/g-C3N4为代表又进一步考察了催化剂的稳定性,在回收重复实验中催化剂的活性保持稳定.     

Cu/SBA-1的合成及其对苯羟化反应的催化性能

以正硅酸乙酯(TEOS)为硅源,十六烷基三乙基溴化铵(CTEABr)为模板剂,在强酸性条件下采用溶胶-凝胶法合成了Cu掺杂SBA-1分子筛.用XRD、SEM、N2吸附/脱附、红外光谱对所制备的样品进行表征.XRD测定结果显示所合成的Cu/SBA-1具有明显的立方介孔结构,Cu/SBA-1比表面积达931 m2·g-1,...     

Cu-incorporated mesoporous materials: Synthesis, characterization and catalytic activity in phenol hydroxylation

A series of novel Cu-incorporated mesoporous materials (CMMs) with molar ratios of Cu/Si ranging from 1/200 to 1/20 were synthesized by sol–gel method using glutaric acid as template. The materials were characterized by powder X-ray diffraction (XRD), N₂ adsorption, diffuse reflectance UV–vis spectroscopy and transmission electron microscopy (TEM). The results indicate that the CMMs have a three-dimensional (3D) worm-like mesoporous structure with a surface area between 600 and 800 m² g⁻¹ and the copper ions are incorporated into the matrix with octahedral environment. The catalytic activity of these CMMs in the phenol hydroxylation using H₂O₂ as oxidant is comparable to that of TS-1. Effects of Cu/Si molar ratio in the catalyst and the influence of various reaction parameters on the catalytic activity were investigated in detail and the optimized reaction condition was acquired.     

The synthesis of substituted phenols from pyranone precursors

The syntheses of various substituted phenols from pyranone precursors, namely 4H-pyran-4-one, 3-(benzyloxy)-2-methyl-4H-pyran-4-one (benzyl-maltol), 2,6-dimethyl-4H-pyran-4-one and diethyl 4-oxo-4H-pyran-2,6-dicarboxylate (diethyl chelidonate) are presented. A variety of pronucleophiles were used in combination with tert-butanol as solvent and potassium tert-butoxide as base, using conventional heating methods and microwave conditions.     

Direct selective oxidation of benzene to phenol using molecular oxygen in the presence of palladium and heteropolyacids

The use of heteropolyacids as a reoxidant for palladium in the direct oxidation of benzene to phenol with molecular oxygen was studied as a function of the variables involved. It was shown that the oxidation system is very effective even if a molar ratio of HOAc:H₂O of 1:2 is used. After 4 h at 130°C the benzene conversion is 15% and the selectivity for phenol is above 70%. The quantity of palladium acetate can be drastically reduced allowing turnover numbers as high as 800.     

A facile green synthesis of silver nanoparticles: An investigation on catalytic hydroxylation studies for efficient conversion of aryl boronic acids to phenol

Ag nanoparticles (AgNPs) catalyst material is bio-synthesized and fully examined using various spectroscopy and microscopy techniques. Further this synthesized material is used for hydroxylation reaction, for this purpose we developed a simple and versatile bio-based method from aryl boronic acids to phenol. The reaction was studied in the presence of low cost ligand in a hydrated reaction medium without any hazardous organic solvents, as a result a finite amount of yield was achieved in short time (<15 min). The hydroxylation reaction is further carried out in a series of different arenes substituted samples with good amount of yields.     

Synthesis of substituted benzenes and phenols by ring-closing olefin metathesis

New synthetic approaches to substituted aromatic compounds are reported. Ring-closing olefin metathesis (RCM)/dehydration and RCM/tautomerization are the key processes in the synthesis of substituted benzenes 3 and phenols 6, respectively. Readily accessible 1,5,7-trien-4-ols 7, which are the precursors of benzenes, were prepared from beta-halo-alpha,beta-unsaturated aldehydes 11 or beta-halo-alpha,beta-unsaturated esters 19 by utilizing reliable transformations in which cross-coupling with vinylic metal reagents 12 and allylation with allylic metal reagents 13 were employed as carbon-carbon bond forming reactions. RCM of 7, followed by dehydration, afforded a wide variety of substituted benzenes 3. In addition, RCM of 1,5,7-trien-4-ones 9, which were prepared by oxidation of 7, furnished various substituted phenols 6 by automatic tautomerization.     

Chemoselective tetrahydropyranylation of alcohols and phenols using polystyrene supported aluminium chloride as a catalyst

A simple, efficient and highly chemoselective method for tetrahydropyranylation of alcohols and phenols has been developed by their reaction with 3,4-dihydro-2H-pyran at room temperature in the presence of a catalytic amount of polystyrene supported AlCl₃. The method is also highly selective for monoprotection of symmetrical diols.     

Surface characterization and catalytic evaluation of copper-promoted Al-MCM-41 toward hydroxylation of phenol

The Mobil Composition of Matter No. 41 (MCM-41) containing Cu and Al with Si/Al ratios varying from 100 to 10 and 1 to 6 wt.% of Cu was synthesized under hydrothermal and impregnation conditions, respectively. The samples were characterized by nitrogen adsorption–desorption measurements, X-ray powder diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), UV–Vis diffuse reflectance spectroscopy (UV–Vis DRS), temperature-programmed reduction (TPR), temperature-programmed desorption (TPD), and ²⁹Si and ²⁷Al magic-angle spinning–nuclear magnetic resonance (MAS–NMR) spectra. X-ray diffraction patterns indicate that the modified materials retain the standard MCM-41 structure. TPR patterns show the two-step reduction of Cu species. TPD study shows that Cu-impregnated Al-MCM-41 samples are more acidic than Al-MCM-41. From the MAS–NMR it was confirmed that most of the Al atoms are present tetrahedrally within the framework and some are present octahedrally in extraframework position. Impregnation of Cu shifted Al to the extraframework position. The catalytic activity of the samples toward hydroxylation of phenol in aqueous medium was evaluated using H₂O₂ as the oxidant at 80 °C. The effects of reaction parameters such as temperature, catalyst amount, amount of H₂O₂, and solvent were also investigated. Sample containing 4 wt.% copper-loaded Al-MCM-41-100 showed high phenol conversion (78%) with 68% catechol and 32% hydroquinone selectivity.     

Zirconia-supported phosphotungstic acid as catalyst for alkylation of phenol with benzyl alcohol

The liquid-phase alkylation of phenol with benzyl alcohol was carried out using zirconia-supported phosphotungstic acid (PTA) as catalyst. The catalysts with different PTA loadings (5–20 wt.% calcined at 750 °C) and calcination temperature (15 wt.% calcined from 650 to 850 °C) were prepared and characterized by ³¹P MAS NMR and FT-IR pyridine adsorption spectroscopy. The catalyst with optimum PTA loading (15%) and calcination temperature (750 °C) was prepared in different solvents. ³¹P MAS NMR spectra of the catalysts showed two types of phosphorous species, one is the Keggin unit and the other is the decomposition product of PTA and the relative amount of each depends on PTA loading, calcination temperature and the solvent used for the catalyst preparation. The catalysts with 15% PTA on zirconia calcined at 750 °C showed the highest Brönsted acidity. At 130 °C and phenol/benzyl alcohol molar ratio of 2 (time, 1 h), the most active catalyst, 15% PTA calcined at 750 °C gave 98% benzyl alcohol conversion with 83% benzyl phenol selectivity.     

The benzene ring as a dipolarophile: Reactions of monosubstituted benzenes with tetracyanoethylene oxide

Summary The reaction of tetracyanoethylene oxide on one hand and toluene, chlorobenzene, fluorobenzene, anisole, and nitrobenzene, on the other, has been studied. Toluene and the halogenobenzenes yield mixtures of monoadducts, anisole yieldp-methoxyphenylmalononitrile and its dimer and nitrobenzene does not react. These results are discussed with the help of a qualitative orbital model.¹H-NMR analysis of some monoadducts has been carried out.

---

Der Benzolring als Dipolarophil: Reaktionen monosubstituierter Benzole mit Tetracyanoethylenoxid

Zusammenfassung Es wurden die Reaktionen von Tetracyanoethylenoxid mit Toluol, Chlorbenzol, Fluorbenzol, Anisol und Nitrobenzol untersucht. Toluol und die Halogenbenzole ergaben Mischungen von Monoaddukten, Anisol ergabp-Methoxyphenylmalononitril und sein Dimer, Nitrobenzol zeigte keine Reaktion. Diese Resultate werden mit Hilfe eines qualitativen Orbitalmodells diskutiert. Die Analyse einiger Monoaddukte erfolgte mittels¹H-NMR-Analyse.

     

负载型铁基复合氧化物催化苯酚羟基化的研究

在温和条件下对铁基复合氧化物催化苯酚和过氧化氢的羟基化反应进行了研究.结果表明,活性组分、载体以及催化剂/苯酚(质量比)、过氧化氢/苯酚(摩尔比)、反应温度和反应时间等对苯酚羟基化反应具有重要影响.Fe-A催化剂的活性组分形成了α-Fe2O3和尖晶石结构;Fe-B催化剂活性组分以非晶态分布在催化剂上,高度弥散,具有更好的催化性能.溶剂的加入,有助于苯酚和过氧化氢的混合,水是理想的羟基化反应溶剂,可以实现苯酚和过氧化氢水溶液的互溶,有利于·OH的生成.以Fe-B作催化剂,水为溶剂,反应温度65℃,反应时间1h,催化剂/苯酚(质量比)=0.02,水/苯酚(体积比)=2.0,过氧化氢/苯酚(摩尔比)=0.3,苯酚转化率21.6%,苯二酚选择性86.5%.     

A mild conversion of arylboronic acids and their pinacolyl boronate esters into phenols using hydroxylamine

Hydroxylamine was found to be a mild reagent for conversion of arylboronic acids and their pinacolyl boronate esters into phenols. This procedure works on most arylboronic acids at room temperature, yielding phenols in moderate to good yields, and efficiently on arylboronates also yielding phenols in good yields.