Adsorption of phenol and 2,4-dichlorophenol on carbon-containing sorbent produced from sugar cane bagasse

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磺化碱木质素和磺化碱木质素聚氧乙烯醚的溶液行为研究

分别制备了不同磺酸基含量的磺化碱木质素(SAL)、不同交联度和分子量的磺化碱木质素聚氧乙烯醚(SAL-PEG),采用动态光散射(DLS)法分别研究磺酸基含量和PEG非离子长链对SAL和SAL-PEG溶液行为的影响规律.结果表明,不同磺酸基含量(1.28~2.09 mmol/g)的SAL在1.0 g/L的水溶液中存在聚集行为,磺酸基含量的增加使SAL的分子舒展程度增加,聚集程度越弱;Na Cl的加入使SAL的分子舒展程度减小,聚集体发生解聚.不同PEG含量的SAL-PEG在1.0 g/L的水溶液中主要以单分子状态存在,聚集行为较弱,分子的流体动力学半径与其分子量和交联度成正比;Na Cl的加入使SAL-PEG的PEG非离子长链却被严重压缩,分子流体动力学半径显著减小,减小程度与其分子量和交联度成正比,但SAL-PEG的聚集程度仍然较弱.     

Experimental Researches on Milled Wood Lignin Pyrolysis Based on Analysis of Bio-oil

The structure of milled wood lignin(MWL), isolated via the Bjrkman procedure, was studied by means of 1H NMR spectroscopy and Fourier transform infrared spectroscopy, and then its pyrolytic product distribution was investigated on a pyrolysis device. MWL obtained from Manchurian Ash(MA) contained more methoxyl and free phenolic hydroxyl groups per C9 unit than MWL from Mongolian Pine(MP) due to the existence of both guaiacyl and syringyl units, which have a major influence on the pyrolysis behavior of lign...     

Fast screening of Depolymerized Lignin Samples Through 2D-Liquid Chromatography Mapping

Lignin valorization and particularly its depolymerization into bio-aromatics, has emerged as an important research topic within green chemistry. However, screening of catalysts and reaction conditions within this field is strongly constrained by the lack of analytical techniques that allow for fast and detailed mapping of the product pools. This analytical gap results from the inherent product pool complexity and the focus of the state-of-the-art on monomers and dimers, overlooking the larger oligomers. In this work, this gap is bridged through the development of a quasi-orthogonal GPC-HPLC-UV/VIS method that is able to separate the bio-aromatics according to molecular weight (hydrodynamic volume) and polarity. The method is evaluated using model compounds and real lignin depolymerization samples. The resulting color plots provide a powerful graphical tool to rapidly assess differences in reaction selectivity towards monomers and dimers as well as to identify differences in the oligomers.     

Peracetic Acid Depolymerization of Biorefinery Lignin for Production of Selective Monomeric Phenolic Compounds

Lignin is the largest source of renewable material with an aromatic skeleton. However, due to the recalcitrant and heterogeneous nature of the lignin polymer, it has been a challenge to effectively depolymerize lignin and produce high‐value chemicals with high selectivity. In this study, a highly efficient lignin‐to‐monomeric phenolic compounds (MPC) conversion method based on peracetic acid (PAA) treatment was reported. PAA treatment of two biorefinery lignin samples, diluted acid pretreated corn stover lignin (DACSL) and steam exploded spruce lignin (SESPL), led to complete solubilization and production of selective hydroxylated monomeric phenolic compounds (MPC‐H) and monomeric phenolic acid compounds (MPC‐A) including 4‐hydroxy‐2‐methoxyphenol, p‐hydroxybenzoic acid, vanillic acid, syringic acid, and 3,4‐dihydroxybenzoic acid. The maximized MPC yields obtained were 18 and 22 % based on the initial weight of the lignin in SESPL and DACSL, respectively. However, we found that the addition of niobium pentoxide catalyst to PAA treatment of lignin can significantly improve the MPC yields up to 47 %. The key reaction steps and main mechanisms involved in this new lignin‐to‐MPC valorization pathway were investigated and elucidated.     

Steam reforming of lignin modified with iron

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Ca1-xPrxFeO3催化热解甘蔗渣木质素制备酚类化合物

采用溶胶-凝胶法合成了一系列镨掺杂的铁酸钙氧化物(Ca_1-xPr_xFeO₃, 简称CPF-x), 优化了其焙烧机制, 研究了其对甘蔗渣木质素(BL)的催化热解作用, 考察了其再生性能. 研究结果表明, CPF-x适宜的合成及焙烧参数分别为: x=0.5, 焙烧温度为800 ℃, 焙烧时间为6 h, 在该条件下得到的CPF-0.5-800-6呈立方晶相, 为疏松多孔结构; 掺杂Pr后, 其比表面积提高了近3倍. CPF-0.5-800-6对BL催化热解最佳工艺参数为: m(CPF-0.5-800-6)∶m(BL)=1∶3, 热解温度为650 ℃, 液相收率最大可达20.73%, 其中主要产物为紫丁香酚类、 苯酚类及愈创木酚类, 其总选择性为63.21%. 以CPF-0.5-800-6为催化剂, 紫丁香酚类化合物选择性由20.60%增大到29.59%, 实现了提高BL催化热解中某种单酚化合物的选择性. CPF-0.5-800-6经5次催化热解-再生循环反应后, 仍具有良好的反应活性和结构稳定性.     

Chemisorption tobacco mosaic virus removal from aqueous solutions and study of virus interaction with active chemisorbent surface by infrared spectroscopy

The interaction of the tobacco mosaic virus with the active surface of an iron-containing adsorbent obtained from lignin by the plasma-catalytic method was studied by IR spectroscopy. The results revealed decomposition of the virus into protein molecules and RNA reacting with the lignin surface via oxygen atoms during the binding of the virus to the sorbent surface. It was assumed that oxygen carboxylate groups interrelate with nanosized iron clusters incorporated into the adsorbent surface structure.     

木质素模化物紫丁香酚热解机理的量子化学研究

采用密度泛函理论方法B3LYP/6-31G++(d,p),对木质素模化物紫丁香酚的热解反应机理进行了量子化学理论研究。提出了三种可能的热解反应途径,对各种反应的反应物、产物、中间体和过渡态的结构进行了能量梯度全优化。计算了各热解反应途径的标准动力学参数,分析了各种主要热解产物的形成演化机理。键离解能计算结果表明,紫丁香酚中CH₃-O键的键离解能最小,各种键离解能的大小顺序为CH₃-O < O-H < CH₃O-C_aromatic < CH₂-H < HO-C_aromatic < C_aromatic-H。在反应路径(1)中,主要热解产物是3-甲氧基邻苯二酚,其形成反应的总能垒为366.6 kJ/mol;在反应路径(2)中主要热解产物是2-甲氧基-6-甲基苯酚,其形成反应的总能垒为474.8 kJ/mol;在反应路径(3)中形成邻甲氧基苯酚的总能垒很低,为21.4 kJ/mol,这表明,在连接甲氧基的碳原子上加氢后能够有效地降低木质素芳环模化物紫丁香酚去甲氧基反应的反应能垒。     

Reaction of [HO(CH2)3]3P with α,β-Unsaturated Ketones Containing a Phenylpropanoid Backbone

Abstract

Interaction of 3,4-(MeO)₂-benzylideneacetone with [HO(CH₂)₃]₃P (THPP) was studied in CD₃OD by NMR to compare reactivity of a phenylpropanoid α,β-unsaturated ketone with a corresponding α,β-unsaturated aldehyde. In the presence of HCl, both the ketone and a related cinnamaldehyde first establish an equilibrium with the product formed by nucleophilic attack of the THPP at the C?O bond, [ArCH?CHCX(OD)PR₃]⁺Cl^?(X?H or CH₃, Ar?Ph or 3,4-(MeO)₂C₆H₃). The ketone salt then slowly transforms into [R₃PCH(Ar)CH(D)C(O)CD₃]⁺Cl^?, the phosphonium product of nucleophilic attack of THPP at the C?C bond, whereas the final product from the aldehyde is the (α-ether)phosphonium chloride [ArCH?CHCH(OCD₃)PR₃]⁺Cl^?. In aqueous media, in the absence of HCl, 4-HO-benzylideneacetone, which is similar to a lignin-type, α,β-unsaturated aldehyde model compound, interacts with THPP to afford a stable phosphonium zwitterion, in contrast to the previously studied aldehyde model, which forms dimeric, bisphosphonium products.