蜂窝状Mnx/PG-CC催化剂中低温CH_4-SCR脱硝性能

采用悬浮浆液法将凹凸棒石(PG)涂覆于堇菁石(CC)表面,制备PG-CC载体.将PG-CC载体以过饱和浸渍法经Mn(NO_3)_2前驱体溶液处理后依次干燥、煅烧制得Mnx/PG-CC整体式催化剂,应用于柴油车尾气净化处理.考察了制备参数(锰负载量、煅烧温度)和工况条件(氧气含量,CH_4/NO)对Mnx/PG-CC催化剂在CH_4-SCR反应中脱硝活性的影响.采用BET、FE-SEM、XRD、XPS和NO吸脱附等表征手段对催化剂的结构和形貌进行表征.结果表明,在锰负载量为11%、煅烧温度为300℃下所制得的催化剂具有较佳的CH_4-SCR脱硝活性,O_2含量为5%、CH_4/NO为1,反应温度为300℃时反应条件最优.锰氧化物活性组分在催化剂表面的高度分散和均匀分布有利于催化剂的CH_4-SCR脱硝活性提高,且有助于NO吸附在载体表面并形成硝酸盐中间体参与催化反应.     

铈锆固溶物载Pd催化剂的构造特征及其活性

以共沉淀法和滤纸作为模板剂的模板法制备铈锆固溶物(Ce／Zr=1)负载Pd催化剂,用XRD对其进行晶相分析,两种方法均形成立方萤石结构．TPR实验揭示了滤纸模板法制备的铈锆固溶物高温老化催化剂更易被还原．催化剂表面Pd的分散度和活性评价实验表明,催化剂表面贵金属的分散度在一定程度上决定催化剂的活性,载体物性影响Pd的分散度,滤纸模板法制备的铈锆固溶物负载Pd催化剂有较高的Pd分散度,表现出比共沉淀法制备的铈锆固溶物负载Pd催化剂好的三效活性．     

还原温度对Pd-CeO2/Al2O3催化剂加氢脱硫性能的影响

采用浸渍法制备CeO2改性的Pd/Al2O3加氢脱硫催化剂,考察了还原温度和还原-氧化预处理对Pd/Al2O3和Pd-CeO2/Al2O3催化剂加氢脱硫性能的影响.结果表明,Pd/Al2O3的活性受还原温度的影响很小.Pd-CeO2/Al2O3还原温度的升高使CeO2发生迁移,导致催化剂表面Pd原子数减少,同时削弱了Pd-Ce界面效应,从而使催化剂的活性降低.还原-氧化预处理使Pd-CeO2/Al2O3的活性有较大提高,预处理能促使Pd的再分散,增加了对H2的吸附活化能力,在Pd-Ce的界面效应共同作用下使催化剂拥有较高的活性.     

单钯型汽车尾气净化催化剂研究

应用流动体系微型反应和怠速实验装置对Pd/Ni/La-Ce-Al汽车尾气净化催化剂的CO、C3H8、NO转化活性进行了评价、研究了镍含量和La-Ce-Al涂层对催化剂活性的影响、对催化剂进行了TPR、CO-TPD、O2-TPD、C3H8-TPD表征.结果表明:镍对Pd/La-Ce-Al催化剂具有良好的助催化作用;在实验条件下,镍含量为15%时催化剂小试评价具有最好的CO、C3H8氧化活性和NO还原活性;La-Ce-Al涂层比例对催化剂转化活性影响很大;Pd/Ni/La-Ce-Al催化剂具有非常高的CO、HC三效氧化活性,但其NO三效还原活性有待改善.     

Pd-Fe/C催化氯酚还原脱氯-氧化联合降解

以Pd和Fe为活性金属组分通过沉积沉淀法制备了负载型Pd-Fe/C双金属催化剂,针对氯酚类污染物进行催化还原脱氯和催化氧化的连续降解处理.通过ICP-MS、XRD和TEM对催化剂进行表征,证实0.5%Pd-0.5%Fe/C催化剂中活性金属组分Pd和Fe在载体表面分散性最好,催化剂比表面积达到718.8 m~2·g~(-1).在温和条件下,以水作为反应介质,研究了负载型Pd-Fe/C催化剂对4-氯苯酚(4-CP)和2,4-二氯苯酚(2,4-DCP)的连续降解过程和反应条件,以及催化剂的重复使用情况.考察了Pd和Fe的负载量及p H值对催化剂活性的影响,得到了最佳反应条件,以0.5%Pd-0.5%Fe/C为催化剂,20 min内完成4-CP和2,4-DCP的催化还原脱氯,产物都为苯酚;之后加酸调节pH=5,并加入H2O2继续进行催化氧化,苯酚被彻底降解为H_2O和CO_2,而且转化率在60 min内可以达到97.5%以上,从而实现4-CP和2,4-DCP的彻底降解.     

甲醇燃料汽车排气催化净化研究——催化剂的制备和活性评价

本文研究了以堇青石蜂窝体为载体、贵金属Pd为活性组分的催化剂制备方法,以及该催化剂体系用于净化甲醇汽车(M100)排气的可能性。实验室和台架试验的结果表明,含活性氧化铝涂层的堇青石蜂窝体为载体的Pd催化剂体系(Pd0.75～1.4克/升),具有良好的活性和热稳定性,经1000℃焙烧后活性不下降,排气起燃温度是129—137℃;在空速4—13×10~4小时~(-1)、甲醇浓度4—10万ppm,甲醛50—530ppm及未加二次空气条件下,甲醇净化率～99％,甲醛净化率不稳定。涂层料中加入稀土氧化物有助于改善催化剂的热稳定性,台架试验结果还表明,排气中O_2含量少,不足以把甲醇和CO完全氧化成CO_2。因此,为同时获得甲醇、甲醛和一氧化碳的良好净化效果,需要补充二次空气。     

氧化锰八面体分子筛(OMS-2)负载Pd催化剂的制备及其CO催化氧化性能

通过前掺杂法(PI)和浸渍法(IM)制备了氧化锰八面体分子筛(Octahedral Molecular Sieves,OMS-2)负载Pd(Pd/OMS-2)催化剂.采用X射线衍射(XRD)、H2-程序升温还原(H2-TPR)和N2-吸附/脱附等技术对样品进行了表征,研究了不同制备方法和不同Pd负载量对Pd/OMS-2催化剂催化氧化CO性能的影响,通过与载体OMS-2的比较研究了Pd/OMS-2催化剂的稳定性.结果表明,前掺杂法制备的Pd/OMS-2-PI催化剂活性明显优于浸渍法制备的Pd/OMS-2-IM催化剂,其T100分别为75℃和175℃.这与Pd/OMS-2-PI催化剂中OMS-2载体与Pd之间存在强相互作用有关.Pd负载量明显影响Pd/OMS-2-PI催化剂的催化活性,3Pd/OMS-2-PI催化剂(Pd=3.0wt%)催化活性最高,这是由于Pd掺杂进入OMS-2晶格结构,能活化晶格氧,而随Pd含量进一步增加,部分Pd分布在OMS-2表面.稳定性结果表明,Pd/OMS-2-PI稳定性明显优于OMS-2载体本身,这可能与Pd掺杂进入催化剂晶格,能较好稳定OMS-2结构密切相关.     

过渡金属对Pt Rh Pd/Al2O3催化剂性能的影响

研究了过渡金属(重点考察了铜)对Pt Rh Pd／Al2O3催化剂尾气净化效能的影响,并应用XRD,TPD,TPR等手段对过渡金属在Pt Rh Pd／Al2O3催化剂中的作用机制进行了探讨．结果表明,过渡金属对Pt Rh Pd／Al2O3催化剂具有较大的改性作用,过渡金属与混合贵金属产生的协同效应有利于催化剂活性的提高．     

Mnx/SEP(海泡石)催化剂低温NH_3-SCR脱硝性能

以Mn(CH_3COO)_2和KMnO_4为前驱体,采用原位生长法在海泡石(SEP)载体表面负载锰氧化物,制备Mnx/SEP催化剂应用于低温SCR脱硝反应.分别考察了制备工艺及反应条件等因素对Mnx/SEP催化剂低温NH_3-SCR脱硝活性的影响.采用BET、XRD、SEM、XPS等表征手段对催化剂的结构和形貌进行表征分析.结果表明,在锰负载量为8 wt%、n(Mn(CH_3COO)_2)/n(KMnO_4)为3∶2时所制备的催化剂具有较佳的NH_3-SCR低温脱硝活性.当空速为10000 h~(-1)、反应温度在100—250℃区间时,转化率为100%,表明该催化剂具有高空速适应性.锰氧化物活性组分在海泡石表面的均匀分布和高的分散性使催化剂具有较大的有效比表面积,有利于催化剂NH_3-SCR反应;此外n(Mn(AC)_2)/n(KMnO_4)对催化剂表面活性物种形态特别是表面Mn~(4+)/Mn~(3+)比具有显著影响,进而与催化剂的低温SCR脱硝活性紧密相关.     

全Pd三效催化剂研究涂层材料的研究

制备了作为Pd三效催化剂涂层材料组成的活性Al2O3/金属氧化物添加剂试样,用BET法、XRD法及H2－TPR法对这些涂层原材料体系进行表征。结果表明：金属氧化物添加剂提高了活性Al2O3的热稳定性;添加ZrO2改善了CeO2的热稳定性;与含Ca的试样不同,含La试样没有贮氧能力。用含有Al2O3-CeO2/ZrO2和Al2O3-La2O3/BaO的涂层材料制备的Pd催化剂有好的CO,HC和NOx同时净化的三效性能和低的起燃活性。加入0．003％（V／V）SO2降低了催化剂活性,含La2O3/BaO涂层材料的Pd催化剂上NOx反应易被SO2中毒。     

Al_2O_3负载Pd-Cu催化剂催化1,2-二氯乙烷加氢脱氯性能

采用共浸渍法制备了一系列Al2O3负载金属Pd、Cu催化剂.通过元素分析（ICP）、氮气吸脱附（BET）、X射线粉末衍射（XRD）、透射电镜（TEM）等技术对催化剂进行了表征,并以1,2-二氯乙烷气相加氢脱氯为探针反应,考察了Pd-Cu/Al2O3催化剂的钯铜比、反应温度、反应时间等因素对催化活性以及反应产物乙烯选择性的影响.结果发现,提高Cu负载量可在催化剂中形成Pd-Cu合金,并促进催化剂对乙烯的选择性.此外,当温度为250℃,Pd、Cu负载量分别为0.78%和1.9%时的Pd-Cu/Al2O3催化剂对1,2-二氯乙烷的催化加氢脱氯效果最佳,最终产物乙烯的选择性可达到80%以上.     

Pd/MCM-41催化水溶液中碘苯Ullmann反应的研究

以水溶剂中Ullmann反应为目标反应,设计具有纳米介孔结构的Pd/MCM-41作为其高效催化剂.与传统SiO2载体负载的Pd催化剂比较,该催化剂在以水为介质的碘苯偶合（Ullmann反应）中显示出优良的催化活性和对联苯的选择性.     

Pd nanoparticles entrapped in TiO<Subscript>2</Subscript> nanotubes for complete butane catalytic combustion at 130 °C

Air pollution by volatile organic compounds is a major health issue due to increasing industrialization and urbanization, notably in the developing countries. Cleaning organic pollutants by catalytic combustion is a potential solution, but actual methods require relatively high temperatures, thus increasing remediation costs. There is therefore a need for methods that operate at mild temperatures. Here we prepared a novel catalyst made of Pd nanoparticles entrapped in TiO₂ nanotubes by vacuum-assisted impregnation. Then, we tested this catalyst for butane combustion. The catalyst was characterized by N₂ adsorption–desorption isotherms, transmission electronic microscopy, energy-dispersive X-ray analysis coupled with a scanning transmission electron microscope, X-ray photoelectron spectroscopy and temperature programmed oxidation. Results show a complete combustion of butane at 130 °C, which is about 20 °C lower than temperatures required by actual catalysts made of Pd nanoparticles deposited on the exterior surface of TiO₂ nanotubes. Structure characterization suggests that this higher performance at lower temperature is explained by the confinement of TiO₂ nanotubes. Such a confinement could hinder the metal sintering and, in turn, facilitate the formation of PdO during oxidation on the entrapped Pd nanoparticles.     

Promoting effect of Zr on the catalytic combustion of methane over Pd/γ-Al2O3 catalyst

The effect of Zr on the catalytic performance of Pd/y-A1203 for the methane combustion was investigated. The results show that the addition of Zr can improve the activity and stability of Pd/γ-Al2O3 catalyst, which, based on the catalyst characterization （N2 adsorption, XRD, CO- Chemisorption, XPS, CHa-TPR and O2-TPO）, is ascribed to the interaction between Pd and Zr. The active phase of methane combustion over supported palladium catalyst is the Pd^0/Pd^2＋ mixture. Zr addition inhibits Pd aggregation and enhances the redox properties of active phase Pd^0/ Pd^2＋. H2 reduction could effectively reduce the oxidation degree of Pd species and regenerate the active sites （Pd^0/ pd^2＋）.     

Enhanced performances in catalytic oxidation of <Emphasis Type="Italic">o</Emphasis>-xylene over hierarchical macro-/mesoporous silica-supported palladium catalysts

A series of hierarchical macro-/mesoporous silica supports (MMSs) were successfully synthesized using dual-templating technique employing polystyrene (PS) spheres and the Pluronic P123 surfactant. Pd was next loaded on the hierarchical silica supports via colloids precipitation method. Physicochemical properties of the synthesized samples were characterized by various techniques and all catalysts were tested for the total oxidation of o-xylene. Among them, the Pd/MMS-b catalyst with tetraethoxysilane/polystyrene weight ratio of 1.0 exhibited superior catalytic activity, and under a higher gas hourly space velocity (GHSV) of 70000 h^–1, the 90% conversion of o-xylene has been obtained at around 200°C. The BET and SEM results indicated that Pd/MMSb catalyst possesses high surface area and large pore volume, and well-ordered, interconnected macropores and 2D hexagonally mesopores hybrid network. This novel ordered hierarchical porous structure was highly beneficial to the dispersion of active sites Pd nanoparticles with less aggregation, and facilitates diffusion of reactants and products. Furthermore, the Pd/MMS-b catalyst possessed good stability and durability.     

含氮有机物在Pt／HM,Pd／HM和CuO／HM催化剂上的氧化降解

本文考虑了乙腈、硝基甲烷和乙二胺在Ｐｔ／ＨＭ，Ｐｄ／ＨＭ和ＣｕＯ／ＨＭ催化剂上氧化降解产物随反应温度的变化。在实验温度范围内，含氮产物在Ｎ２，Ｎ２Ｏ和ＮＯ２。随着反应温度的升高，硝基甲烷氧化降解的Ｎ２选择性呈单调下降；而乙腈和乙二胺的Ｎ２选择性出现极小值；高温时Ｎ２选择性升高可能是氧化生成的ＮＯ在高温时更在利于和ＣＮ基或ＮＨ２基相互反应生成Ｎ２的缘故。对于乙腈和乙二胺的催化氧化降解活性为：Ｐｔ／Ｈ     

Formic acid fractionation towards highly efficient cellulose-derived PdAg bimetallic catalyst for H2 evolution

The present work, in which cellulose isolated from formic acid fractionation(FAC) is decorated with polyetherimide(PEI) to attain highly efficient cellulose-derived PdAgbimetallic catalyst(PdAg-PEI-FAC), has been investigated, and the catalyst properties are characterized by XRD, XPS, BET, ICP-AES and HAADF-STEM. The as-obtained Pd_3.75Ag_3.75-PEI-FAC exhibits excellent catalytic performance for H2 evolution from a sodium formate-free formic acid(FA) aqueous medium at ambient...     

Facile synthesis of Pd nanoparticles on SiO2 for hydrogenation of biomass-derived furfural

This report shows that furfuryl alcohol can be selectively produced from the hydrogenation of furfural using supported Pd nanoparticles. Furfuryl alcohol is widely used as solvent and chemical intermediate for the synthesis of fine chemicals. Here, various Pd nanoparticles supported on mesoporous SiO₂ (Pd/SiO₂) were simply fabricated by a wet impregnation using palladium nitrate. Physical properties of Pd/SiO₂ nanoparticles were studied by X-ray diffraction, energy-dispersive, X-ray analysis, N₂ adsorption and desorption isotherms and transmission electron microscopy. Results show a high dispersion of Pd nanoparticles with small size. Pd nanoparticles catalyzed very efficiently the hydrogenation of furfural to furfuryl alcohol with 76 % selectivity under mild conditions. Overall, the catalyst developed could find applications for the production of chemicals from biomass.