纳米复合固体超强酸SO42-/CoFe2O4的制备和表征

采用纳米化学制备技术合成了新型的纳米复合固体超强酸催化剂ＳＯ４＾２－／ＣｏＦｅ２Ｏ４。用ＸＲＤ、ＴＥＭ、ＸＰＳ、红外光谱和比表面测定等技术研究了该催化剂的结构形态,结果表明：所研制的ＳＯ４＾２－／ＣｏＦｅ２Ｏ４２催化剂为晶态纳米粒子（〈５０ｎｍ）,比表面积很大（１５７ｍ＾２．ｇ＾－１）,ＳＯ４＾２－与氧化物的金属离子呈无机齿螯合状配位化合物的结合形式。以乙酸乙酯合成为模型反应考究了该催化剂的催化活     

Mo－Fe／SiO_2催化剂中钼流失动力学和流失机理的研究

作为甲醇氧化制甲醛、甲醇氨氧化制ＨＣＮ反应的催化剂，其活性组分钼的流失是导致催化剂失活的主要原因。本文结合程序升温脱附（ＴＰＤ）及Ｘ－光衍射（ＸＲＤ）等测试手段，对Ｍｏ－Ｆｅ／ＳｉＯ_２催化剂及工业实际用多元复合钼催化剂中钼的流失动力学和机理进行了研究。在ＨＣＮ合成过程中，水能引起活性组分钼的流失，而水又是反应产物。对工业用多元复合钼催化剂的流失情况进行了动力学考察，实验发现，催化剂中的钼是较难流失的，ＸＲＤ测试结果表明，Ｍｏ－Ｆｅ／ＳｉＯ_２催化剂中的钼是以Ｆｅ_２（ＭｏＯ_４）_３晶体形式存在的，而反应后催化剂中Ｍｏ为ＭｏＯ_３晶体状态。与其它催化剂比较，ＭｏＯ_３／ＳｉＯ_２催化剂中的钼难流失，而较Ｂｉ－Ｍｏ／ＳｉＯ_２催化剂中的钼易流失。其中工业用催化剂是最为稳定的。根据实验结果，结合我们以前的工作，证明Ｍｏ－Ｆｅ／ＳｉＯ_２催化剂中，由于钼组分和铁组分的相互作用，使得Ｍｏ－Ｆｅ／ＳｉＯ_２中的Ｍｏ的流失难于单组分的ＭｏＯ_３／ＳｉＯ_２催化剂，此外钼流失过程中ＭｏＯ_２（ＯＨ）_２与催化剂中铁组分反应生成钼酸盐的倾向也是Ｍｏ难于流失的原因之一。而Ｍｏ－Ｆｅ／ＳｉＯ_２和Ｍｏ－Ｂｉ／ＳｉＯ_２催化剂中钼流失速度的差异     

氧化铈在非贵金属氧化物催化剂中的作用：Ⅵ.Cu—Fe—Ce—O催化剂的结 …

采用ＸＲＤ,顺磁共振（ＥＳＲ）,Ｍｏｓｓｂａｕｅｒ和或温还原（ＴＰＲ）技术对负截型Ｃｕ－Ｆｅ－Ｏ（Ⅰ）,Ｃｕ－Ｆｅ－Ｃｏ－Ｏ（Ⅱ）催化剂的固相结构及热稳定性进行了研究。结果发现,（Ⅰ）中主要存在Ｆｅ２ＣｕＯ４,ＣｕＯ和颗粒度小于１３ｎｍ的Ｆｅ２Ｏ３相。随着焙烧温度的升高,ＣｕＯ晶相逐渐消失,Ｆｅ２ＣｕＯ４的晶相长大。（Ⅱ）中Ｃｅ的存在,能提高Ｃｕ＾２＋的浓度,抑制ＣｕＯ和Ｆｅ２ＣｕＯ４晶相的生成,     

氧化铈对F-T反应铁锆催化剂的助催化作用

应用ＸＲＤ、ＸＰＳ、Ｍｏｓｓｂａｕｅｒ谱、ＴＰＲ、ＣＯ－ＴＰＤ、ＣＯ＋Ｈ２反应性能测量试等手段研究了ＣｅＯ２对Ｆ－Ｔ合成制低碳烯烃Ｃｅ－Ｆｅ／ＺｒＯ２催化剂催化性能的影响。结果表明，与Ｆｅ／Ｚｒ催化剂相比，加铈助剂后的催化剂Ｆ－Ｔ反应催化活性明显上升。     

SO_4~（2－）／TiO_2和SO_4~（2－）／Fe_2O_3固体超强酸研究

用ＸＲＤ、ＴＧ－ＤＴＧ、ＳＥＭ和化学分析等手段研究了浸渍Ｈ_２ＳＯ_４的无定形ＴｉＯ２和Ｆｅ_２Ｏ_３在焙烧过程中的晶化、相变、失水及失硫情况，总结出ＳＯ４２－／ＭｘＯｙ型固体超强酸具有与ＳＯ４２－／ＺｒＯ２体系相同的形成规律；用ＩＲ光谱和常温正戊烷异构化反应对ＳＯ４２－／ＴｉＯ２和ＳＯ４２－／Ｆｅ_２Ｏ_３的超强酸性进行了表征，表明它们与／ＺｒＯ_２体系具有相似的表面酸位结构，无水状态主要为Ｌ酸位，吸水后部分Ｌ酸位可转变为Ｂ酸位，但这两种体系的超强酸性均比ＳＯ４２－／ＺｒＯ_２弱，其Ｈ０大约在－１３～－１４之间．     

钠助剂对Fe/SiO_2催化剂结构及其催化甲烷氧化偶联反应性能的影响(英文)

以二氧化硅担载铁氧化物（１ｗｔ％ Ｆｅ／ＳｉＯ２）为探针,结合ＸＲＤ、ＸＡＮＥＳ以及ＥＸＡＦＳ分析结果首次从表面配位几何的观点讨论了钠助剂对Ｆｅ／ＳｉＯ２催化剂结构及其甲烷氧化偶联反应性能所产生的影响。ＸＲＤ分析表明,Ｆｅ／ＳｉＯ２经８００℃焙烧后仍保持无定形特征,添加钠助剂并经８００℃焙烧后,Ｎ２Ｆｅ／ＳｉＯ２已转化为α－方石英结构。Ｆｅ／ＳｉＯ２的ＥＸＡＦＳ拟合结果显示,铁中心被５个近邻氧环绕,平均Ｆｅ－Ｏ键长为０．１９４ｎｍ。与Ｆｅ／ＳｉＯ２相比,Ｎａ－Ｆｅ／ＳｉＯ２的径向结构函数谱中最强峰的相对强度提高了１／４,表明形成了一个更加密集的Ｆｅ－Ｏ壳层。拟合结果表明围绕中心铁原子０．１８９ｎｍ处平均有４．１个氧近邻。Ｆｅ－Ｋ边ＸＡＮＥＳ谱表明钠的参与使催化剂的活性组分由配位不饱和的八面体位逐渐向四配位四面体位迁移。甲烷氧化偶联反应结果显示,添加钠助剂后甲烷转化率有所下降,但是Ｃ２烃的选择性提高了近４２个百分点,ＣＯｘ的选择性则明显下降。说明钠的引入使催化剂的表面结构发生变化,所形成的多数四面体／少数八面体混合结构有效地抑制了甲烷的深度氧化,乙烯乙烷的选择性明显提高。     

NaCl和B2O3在修饰FeOχ催化剂中的协同作用

应用连续催化反应，ＸＰＳ，ＸＲＤ，Ｈ２－ＴＰＲ，Ｏ２－ＴＰＤ和Ｉｎ－ｓｉｔｕ Ｍｏｓｓｂａｕｅｒ谱等方法表征了一系列组成不同的ＮａＣｌ／Ｂ２Ｏ３／Ｆｅ２Ｏ３催化剂。结果表明ＮａＣｌ与Ｂ２Ｏ３在修饰ＦｅＯｘ催化剂上存在明显的协同作用，Ｂ２Ｏ３调变了ＦｅＯｘ的还原能力，ＮａＣｌ修饰了Ｂ２Ｏ３／ＦｅＯｘ使之具有很高的还原速度与晶格氧气化速度。催化剂的催化性能同这种协同作用密切相关。     

CO2加H2合成甲醇Cu—Zn—O催化剂表面化学态研究

应用ＸＲＤ、ＥＳＲ、ＵＲＤＳ、ＸＰＳ及ＸＡＥＳ等手段研究了ＣＯ２加Ｈ２合成甲醇Ｃｕ－Ｚｎ－Ｏ催化剂在还原后和反应状态下的表面化学状态。结果表明，在还原及反应状态下，催化剂表面仅能检测到ＣＵ＾０，而未发现稳定的Ｃｕ＾２＋和Ｃｕ＾＋存在；ＺｎＯ被 部分还原产生低价锌Ｚｎ＾（２－δ）＋（０＜δ＜２）。关联活性测试结果认为：Ｃｕ＾ｏ／Ｚｎ＾（２－δ）＋Ｏ构成ＣＯ２加Ｈ２合成甲醇反应的活性中心。     

SO_4~（2－）－Fe_2O_3－Hβ－Al_2O_3催化剂制备方法对其表面性质和催化丙烯酸化反应性能的影响

首次以Ｈβ沸石为基础，采用一步浸渍法（Ａ）、机械研磨法（Ｂ）、沉积－沉淀法（Ｃ）及分步浸渍法（Ｄ）制备了ＳＯ－Ｆｅ２Ｏ３－Ｈβ－Ａｌ２Ｏ３催化剂，通过ＸＲＤ，ＸＰＳ，ＮＨ３－ＴＰＤ，ＦＴ－ＩＲ及化学吸附等手段对其物理化学性能进行了表征，并对其催化丙烯与异丙醇的酸化反应性能进行了评价．结果表明，在催化剂表面，ＳＯ，Ｆｅ２Ｏ３及Ｈβ沸石之间存在较强的化学作用，Ａ法和Ｃ法制备的催化剂具有明显的增强酸性；总酸量和Ｌ酸量增多，酸强度提高；该催化剂明显促进了丙烯醚化反应，其丙烯和异丙醇转化率分别由Ｈβ－Ａｌ２Ｏ３沸石的７．９８％和３５．１％提高到１４．８％和４０．０％，并发现该反应主要在Ｌ酸中心上进行．     

Co-K-Mo/γ-Al2O3催化剂的合成低碳醇性能及其结构研究

氧化态Ｋ－ＭｏＯ３／γ－Ａｌ２Ｏ３催化剂中添加Ｃｏ（ＮＯ３）２后在空气中四个不同温度下焙烧再硫化,制得Ｃｏ－Ｋ－ＭｏＯ３／γＡｌ２Ｏ３催化剂,对其ＣＯ加氢合成低碳醇的催化反应性能进行了评价,运用ＸＲＤ,ＬＲＳ及ＥＸＡＦＳ等手段对催化剂及其氧化态前躯体的结构进行了表征,活性测试结果表明加Ｃｏ后于５００－６５０℃焙烧制得的催化剂活性较高,且使Ｃ２＋醇比例增加,结构分析结果显示加Ｃｏ后３５０℃焙烧时,Ｃ     

Cu(Ⅰ)/SO42-/ZnO和Cu(Ⅰ)/S2O82-/ZnO催化剂的制备与表征

采用浸渍法对无定形ZnO分别用稀H2SO4和(NH4)2S2O8溶液处理, 制备了SO42-/ZnO和S2O82-/ZnO固体酸. 通过固体离子交换法制备了Cu(Ⅰ)/SO42-/ZnO和Cu(Ⅰ)/S2O82-/ZnO两种催化剂, 并采用XRD, FTIR, TPD和TPR等进行了表征. 研究结果表明, 用稀H2SO4和(NH4)2S2O8溶液分别浸渍处理无定形ZnO, 经过500-600 ℃高温焙烧后得到的SO42-/ZnO和S2O82-/ZnO固体酸表面形成了Zn3O(SO4)2物种; py-FTIR结果表明, 两者均具有B酸中心和L酸中心, 进一步的NH3-TPD研究结果证明, 制备的固体酸NH3脱附峰均出现在543 ℃附近, 属于高强度固体酸. 结构分析认为, 由于SO42-强烈的电子诱导作用, SO42-和ZnO形成的桥式配位物种产生了B酸中心和L酸中心, 而其螯合配位形成的物种没有酸性. SO42-/ZnO和S2O82-/ZnO固体酸与CuCl进行离子交换所制备的Cu(Ⅰ)/SO42-/ZnO和Cu(Ⅰ)/S2O82-/ZnO催化剂的Cu(Ⅰ)易于还原, 对甲醇氧化羰基化合成碳酸二甲酯(DMC)表现出较高的活性和选择性, DMC选择性为98.3%, 时空收率可达到1.9 g(g·h).     

阴离子对RhCl（CO）（TPPTS）2催化1—己烯氢甲酰化反应的影响

在烯烃氢甲酰化反应两相催化体系中,为提高催化剂活性及选择性,有采用外加无机盐的报道［１～３］．从这些文献可以看出,某些无机盐在反应中起到催化助剂的作用．我们曾经研究了硫酸钠及其它金属硫酸盐中的阳离子对反应的影响［４,５］．在引入这些阳离子的同时,还有...     

Influence of the crystal field stabilization energy of metal(II) ions on the structural distortion of matrix-isolated SO4(2-) guest ions in selenate matrices

Infrared spectra of metal(II) selenate hydrates (MeSeO4.nH2O and Na2Me(SeO4)2.2H2O; n=6, 5, 4, 1; Me=Mg, Mn, Co, Ni, Cu, Zn, Cd) containing matrix-isolated SO42- guest ions are reported and discussed with respect to the S-O stretching modes 3 and 1. An adequate measure for the SO42- guest ion distortion is the site group splitting deltanuas (deltanuab and deltanuac in the case of a doublet and a triplet for 3, respectively; a, being the highest wavenumbered component of nu3) and deltanumax (the difference between the highest and the lowest wave numbered S-O stretching modes). It has been shown that the SO42- guest ion distortion depends on both the number of the sulfate oxygen atoms involved in coordinative bonds with the metal(II) ions and the electronic configuration of the metal(II) ions, i.e. their crystal field stabilization energy (CFSE) additionally to the site symmetry and the local potential at the lattice site of the host lattice. The SO42- guest ions matrix-isolated in MeSeO4.H2O (Me=Mn, Co, Zn) and in Na2Me(SeO4)2.2H2O (Me=Mn, Cu, Cd) exhibit three bands corresponding to the nu3 modes as deduced from the site group analysis and deltanuab approximately equal to deltanubc. When SO42- guest ions are incorporated in the triclinic Na2Me(SeO4)2.2H2O host lattices (Me=Co, Ni, Zn) the nu3 stretching region resembles a higher local symmetry of the SO42- guest ions (an approximate (A1 + E) splitting) than the crystallographic one (i.e. deltanuab>deltanubc instead of deltanuab approximately equal to deltanubc) and, hence, the ratio deltanuab/deltanubc has to be taken into account (the higher value of the ratio deltanuab/deltanubc, the weaker is the distortion of the SO42- guest ions). The SO42- guest ions incorporated in MeSeO4.nH2O (n=6, 5, 4) exhibit a higher local symmetry of the guest ions than that deduced from the site group analysis (D2d for the SO42- guest ions in MeSeO4.5H2O, MeSeO4.4H2O and in the monoclinic MeSeO4.6H2O host lattices and close to Td in the tetragonal MeSeO4.6H2O host lattices). The analysis of the infrared spectra of selenate host lattices containing SO42- guest ions reveals that the guest ions are stronger distorted when the adjacent metal(II) ions have CFSE not equal to 0. These ions are more resistant to angular deformations of the MeO6-octahedra (i.e. changes in the O-Me-O bond angles), thus facilitating the SO42- guest ion distortion as compared to those having CFSE=0 which allow stronger angular deformations of the respective metal octahedra. Infrared spectra of kieserite-type compounds MeSeO4.H2O (Me=Mn, Co, Zn) containing matrix-isolated SO42- guest ions and Me'2+ guest ions different from those of the host ions (i.e. Me'SO4.H2O in MeSeO4.H2O) are also presented and discussed (double matrix-spectroscopy).     

配位-氧化聚合-水热法制备聚苯胺/CoFe_2O_4纳米复合物及其微波吸收性能

采用"配位-氧化聚合-水热法"制备了本征态聚苯胺/CoFe2O4二元纳米复合物,再以磺基水杨酸掺杂获得聚苯胺/CoFe2O4电磁复合物.考察了反应物配比及掺杂酸浓度对产物电磁性能的影响.通过透射电子显微镜(TEM)、X射线衍射(XRD)、红外光谱(FTIR)及电磁测量等手段对聚苯胺/CoFe2O4的形貌、结构及性能进行了表征.结果表明,复合物呈现多级结构,其中CoFe2O4为立方体状,平均粒径小于20 nm.当CoFe2O4的质量分数为8.86%时,复合物的电导率约为0.43 S/cm;当聚苯胺/CoFe2O4复合物厚度为2 mm时,在16.01 GHz处最大反射损耗为-16.71 dB,小于-10 dB的带宽达4.68 GHz;而当聚苯胺/CoFe2O4复合物厚度为3.2 mm时,在9.23 GHz处最大反射损耗达-51.81 dB,小于-10 dB的带宽为3.69 GHz,表明具有良好的吸波性能.     

多级结构还原氧化石墨烯包覆的钴铁氧体的合成及电化学性能

以水滑石为前驱体合成微米花/纳米片多级结构过渡金属复合氧化物CoFe2O4,一种高性能锂离子电池负极材料。 通过X射线衍射仪(XRD)、扫描电子显微镜(SEM)和透射电子显微镜(TEM)等技术手段对其进行结构表征,发现得到的复合氧化物为单一晶相,且具有多级结构。 电化学性能测试表明,得到的负极材料具有高比容量和倍率性能。 通过还原氧化石墨烯(rGO)对CoFe2O4进行表面包覆制备CoFe2O4/rGO,其循环稳定性得到大幅度提高。     

Electron transfer reactions of peroxydisulfate and fluoroxysulfate reactions with the cyanide complexes M(CN)n4- (M=Fe(II), Ru(II), Os(II), Mo(IV), and W(IV))

The stoichiometry and the kinetics of oxidation of the cyanide complexes M(CN)n4- (M = Fe(II), Ru(II), Os(II), Mo(IV), and W(IV)) by the peroxydisulfate ion, S2O8(2-), and by the much more strongly oxidizing fluoroxysulfate ion, SO4F-, were studied in aqueous solutions containing Li+. Reactions of S2O8(2-) with M(CN)n4- are known to be strongly catalyzed by Li+ and other alkali metal ions, and this applies also to the corresponding reactions of SO4F-. The primary reactions of S2O8(2-) and SO4F- have both been found to be one-electron processes in which the equally strong O-O and O-F bonds are broken. The primary reaction of S2O8(2-) consists of a single step yielding M(CN)n3-, SO4-, and SO42-, whereas the primary reaction of SO4F- comprises two parallel one-electron steps, one leading to M(CN)n3-, SO4-, and F- and the other yielding M(CN)n-1(2-), CN-, SO4- and F-. The relationship between the rate constants and the standard free energies of reaction for the Li+-catalyzed reactions of SO4F- and S2O8(2-) with M(CN)n(4-), and for the uncatalyzed reactions of S2O8(2-) with bipyridyl and phenanthroline complexes MLn2+ (M = Fe(II), Ru(II), and Os(II)) studied previously, suggests that the intrinsic barrier for all three sets of reactions is similar, i.e., unaffected by the Li+ catalysis, and that the electron transfer and the breakage of the O-O and O-F bonds are concerted processes.     

铁酸钴纳米晶的低温合成、谱学表征及磁性

以十六烷基三甲基溴化铵（CTAB）为模板,Fe(NO3)3·9H2O和Co(NO3)2·6H2O为前躯体,NaOH为沉淀剂,低温回流合成了磁性铁酸钴纳米晶。利用X射线衍射、透射电子显微镜、红外光谱、拉曼光谱等测试技术对产品的结构进行了表征,借助振动样品磁强计测定了样品的室温磁性能。结果表明,铁酸钴纳米晶为单相立方尖晶石结构,纳米晶的平均粒径为15-20 nm。铁酸钴纳米晶在室温外加磁场下表现出明显的磁滞现象,饱和比磁化强度MS=36.5 A.m2/kg,矫顽力HC=5.89×104 A/m。     

三维超分子化合物[H_2(C_4H_(10)N_2)](SO_4)(H_2O)的制备、晶体结构及差热-热重性质研究

用MnSO4H2O和哌嗪在水-甲醇混合溶剂中反应得到了1个超分子化合物[H2(C4H10N2)](SO4)(H2O) (C4H14N2O5S)。 该晶体属单斜晶系, 空间群为P21/n, 晶胞参数为: a = 6.386(1), b = 11.695(2), c = 11.680(2) ? = 101.06(3), V = 856.1(3) 3, Z = 4, Mr =202.23 , Dc = 1.569 g/cm3, F(000) = 432, ?= 0.368 mm-1。 该化合物是由[H2(C4H10N2)]2+、SO42-、H2O通过氢键自组装而形成的。 其中[H2(C4H10N2)]2+存在2种椅式构象:一种[H2(C4H10N2)]2+与4个SO42-、2个H2O通过氢键相连, 另一种[H2(C4H10N2)]2+则与6个SO42-相连。 它们分别沿着b、c方向交替排列展开, 通过SO42-桥联成二维的层状结构;层与层之间在NH…O、CH…O、OH…O氢键的作用下互相连接, 形成了具有网状结构的三维超分子化合物。 差热及热重测试表明:该化合物从92℃开始分解,首先失去1个H2O, 然后再失去[H2(C4H10N2)]2+和SO4 2-。     

Sulfated mesoporous alumina: a highly effective solid strong base catalyst for the Tishchenko reaction in supercritical carbon dioxide

Heterogeneous strong base catalysis for the intramolecular Tishchenko reaction of aromatic 1,2-dicarbaldehydes to the corresponding phthalides in supercritical CO2CscCO2 has been realized with mesoporous alumina containing SO4(2-) ions in the alumina framework (mesoAl2O3/SO4(2-)). Infrared spectroscopy of pyrrole adsorbed on the alumina and strong poisoning by a weak Br?nsted acid of methanol revealed that the SO4(2-) ions in the framework slightly suppressed the average strength of base sites (O2-) on mesoAl2O3/SO4(2-), but there exists a small number of strong base sites that promote the Tishchenko reaction in scCO2. Although the intramolecular Tishchenko reaction of phthalaldehyde to phthalide in scCO2 was somewhat slower than those in organic solvents such as tetrahydrofuran (THF) and benzene, the addition of a small amount of THF as a cosolvent remarkably increased the reaction rate; the reaction in the scCO2-THF system proceeded 1.5-fold faster than those in pure benzene and THF solvents.     

Synthesis,characterization and application of pH-sensitive CoFe2O4/reduced graphene oxide (RGO) nanocomposite in a circulated photocatalytic reactor for Reactive Red 141 removal of wastewaters

Research on Chemical Intermediates - In the present study, CoFe2O4/reduced graphene oxide nanocomposite (CoFe2O4/RGO) has been synthesized, characterized and applied as a photocatalyst for Reactive...