表面稳定单质铜的介孔二氧化钛的光催化产氢性能（英文）

采用十二烷基硫醇作为保护剂有效地稳定住了光催化过程中介孔二氧化钛(m-Ti O_2)表面原位生成的Cu~0物种。通过X射线衍射,X射线光电子能谱,高分辨透射电镜,高角环形暗场扫描透射电镜等手段对催化剂的组成结构进行了表征,发现催化剂中仅有Cu~0物种存在。在紫外光照射下,以甲醛水溶液为牺牲试剂测试了Cu~0物种对介孔二氧化钛产氢性能的影响,发现适量的Cu~0纳米颗粒能够极大地提高介孔二氧化钛的产氢性能。当Cu~0的物质的量分数为1.0%时,Cu~0/m-Ti O_2表现出最高的产氢速率,为725μmol·h~(-1)·g~(-1)。该样品中Cu~0纳米颗粒的尺寸为(4.2±0.9)nm。此外,通过气相色谱检测到产生的H_2和CO_2的物质的量之比为2∶1,表明部分氢气来自于水分解。     

一步水热合成Cu-SAPO-34选择性催化丙烯还原氮氧化物

采用一步法水热合成不同Cu/Al比的Cu-SAPO-34催化剂,并对其丙烯选择性催化还原NO（C₃H₆-SCR）性能进行了研究。通过N₂吸附-脱附、X射线衍射（XRD）、X射线光电子能谱（XPS）、程序升温还原（H₂-TPR）和原位漫反射傅里叶变换红外光谱（In situ DRIFTS）等研究手段对催化剂进行表征,考察Cu-SAPO-34中Cu物种含量对催化剂的物理化学性质和反应活性的影响。结果表明,当铜负载量为2.76%~4.12%（w/w）时,Cu-SAPO-34催化剂在富氧条件下300~400℃内表现出非常有吸引力的C₃H₆-SCR活性,可实现~100%的脱硝效率和~100%的N₂选择性。原位红外光谱研究表明,Cu-SAPO-34分子筛骨架上孤立的Cu²⁺离子是NO吸附和活化形成NO₂^-/NO₃^-中间物种的主要活性位,并通过C₃H₆-SCR反应过程中Cu²⁺/Cu⁺氧化还原循环来实现Cu²⁺离子的持续供给。     

CdS柱撑钛铌酸介孔复合材料的制备与光解水制氢活性

以钛铌酸纳米片层为主体,CdS纳米颗粒为客体,通过剥离-重堆积法合成了不同投料比的CdSTiNbO₅介孔复合材料,材料的层间距为1.19nm,比表面积约为93m₂·g^-1.CdSTiNbO₅复合材料表现出良好的光解水制氢活性,当投料比n_CdS/n_HTiNbO5=1:2时,复合材料在模拟太阳光和可见光下的产氢速率分别为231和184μmol·h^-1·g^-1,是CdS的8.6和9.7倍.复合材料光催化活性的提高归因于比表面积的增加和光生载流子的有效分离.     

Cr2O3和CrO3/Cr2O3催化剂的2-氯-1，1，1-三氟乙烷气相氟化反应的活性物种和失活

采用沉淀法和浸渍法制备了2种铬基（Cr₂O₃和CrO₃/Cr₂O₃）催化剂,用于气相氟化2-氯-1,1,1-三氟乙烷合成1,1,1,2-四氟乙烷。研究发现含有低价铬（Cr³⁺）物种的Cr₂O₃催化剂上2-氯-1,1,1-三氟乙烷的稳态转化率为18.5%,而含有高价铬（Cr⁶⁺）物种和低价铬（Cr³⁺）物种的CrO₃/Cr₂O₃催化剂初始转化率达到30.6%,然而存在明显的失活。含有Cr⁶⁺物种的CrO₃/Cr₂O₃催化剂的2-氯-1,1,1-三氟乙烷氟化反应初始TOF值为1.71×10^-4 mol_HCFC-133a·mol_Cr(Ⅵ)^-1·s^-1,高于含有Cr³⁺物种的Cr₂O₃催化剂（4.16×10^-5 mol_HCFC-133a·mol_Cr(Ⅲ)^-1·s^-1）。Cr₂O₃催化剂在氟化反应前后催化剂的物相结构保持不变;而含有高价铬物种的CrO₃/Cr₂O₃催化剂经HF反应后生成了CrO_xF_y活性物种。然而,CrO_xF_y物种在反应中挥发或转化成稳定但无活性的CrF₃,从而导致催化剂失活。     

棒状CuFe4Ox的可控合成及其异戊醇脱氢反应的催化性能

利用液相沉淀法可控合成了均匀的棒状CuFe₄O_x催化剂。通过原位X射线粉末衍射（XRD）、高分辨透射电子显微镜（TEM）及程序升温还原（TPR）等手段表征其晶相结构、形貌和还原性能。通过还原棒状CuFe₄O_x获得Cu⁰/Fe₃O₄ 纳米棒,原位X射线光电子能谱（XPS）用于确定Cu⁰/Fe₃O₄ 表面的相组成。通过液相沉淀法制备棒状CuFe₄O_x,在120℃保持3 h后加入Na₂CO₃溶液至pH等于9时所得棒状形貌最为规整。以异戊醇脱氢反应作为探针反应,比较了Cu⁰/Fe₃O₄ 纳米棒和Cu⁰/Fe₃O₄ 纳米颗粒的催化反应性能,发现Cu⁰/Fe₃O₄ 纳米棒比Cu⁰/Fe₃O₄ 纳米粒子具有更好的活性和稳定性,表明棒状Fe₃O₄ 担载的Cu纳米粒子具有更好的结构稳定性。     

棒状CuFe4Ox的可控合成及其异戊醇脱氢反应的催化性能

利用液相沉淀法可控合成了均匀的棒状CuFe₄O_x催化剂。通过原位X射线粉末衍射（XRD）、高分辨透射电子显微镜（TEM）及程序升温还原（TPR）等手段表征其晶相结构、形貌和还原性能。通过还原棒状CuFe₄O_x获得Cu⁰/Fe₃O₄纳米棒,原位X射线光电子能谱（XPS）用于确定Cu⁰/Fe₃O₄表面的相组成。通过液相沉淀法制备棒状CuFe₄O_x,在120℃保持3 h后加入Na₂CO₃溶液至pH等于9时所得棒状形貌最为规整。以异戊醇脱氢反应作为探针反应,比较了Cu⁰/Fe₃O₄纳米棒和Cu⁰/Fe₃O₄纳米颗粒的催化反应性能,发现Cu⁰/Fe₃O₄纳米棒比Cu⁰/Fe₃O₄纳米粒子具有更好的活性和稳定性,表明棒状Fe₃O₄担载的Cu纳米粒子具有更好的结构稳定性。     

不同方法制备的CoxZr1-xO2催化剂及其氧化甲苯和甲醛的性能

采用沉淀法、水热法、热分解法和浸渍法制备了Co_xZr_1-xO₂催化剂。通过热重（TG）、X射线衍射（XRD）、扫描电子显微镜（SEM）、能量散射X射线光谱（EDS）、N₂吸附/脱附测试等手段对催化剂的理化性质进行了表征。结果表明,水热法制备的催化剂Co_xZr_1-xO₂-H（1∶1）中的钴、锆的分散性好、颗粒均匀、孔结构发达,比表面积可达到102 m²·g^-1,氧化甲苯和甲醛的活性优于其他催化剂,其表观活化能为65.2和53.6 kJ·mol^-1。Co_xZr_1-xO₂-H（1∶1）的优异催化性能与物种的分散度及协同效应、比表面积和孔结构有关。控制Co-Zr催化剂的制备方法可以获得良好的物化性能。     

Y-Mn-O负载的Ni基催化剂用于乙酸自热重整产氢

为了有效地从生物质衍生的乙酸中获得高氢气产率,通过水热法合成了一系列的NiMnY催化剂并用于乙酸自热重整（ATR）过程中,并采用X射线衍射（XRD）、N₂吸附-脱附测试、H₂程序升温还原（H₂-TPR）探究催化剂中的内在联系。在Ni_0.39Mn_0.61YO_3.11±δ催化剂中,经焙烧后形成了类钙钛矿型（Ni,Mn）YO₃物相;经氢气还原后,转化为含有MnO、Y₂O₃和高分散Ni纳米粒子的热稳定的Ni-Mn-Y-O物种。Ni_0.39Mn_0.61YO_3.11±δ具有高效稳定的产氢催化性能,乙酸转化率高达100%,氢气产率达到2.68 mol_H2·mol_HAc^-1。     

酸处理对CuY催化剂孔结构及氧化羰基化性能的影响

对NaY分子筛(n_Si/n_Al=2.65)进行了草酸脱铝处理并作为载体采用液相离子交换法制备CuY催化剂, 应用于常压甲醇氧化羰基化合成碳酸二甲酯(DMC)反应。NaY分子筛及其CuY催化剂通过N₂低温吸附-脱附、透射电子显微镜、X射线衍射、²⁹Si固体核磁共振、NH₃吸附程序升温脱附、吡啶吸附红外光谱、H₂程序升温还原、原子吸收等方法进行表征。研究结果表明, 酸处理NaY分子筛后, 骨架铝被脱除, 导致骨架n_Si/n_Al比增加、相对结晶度降低并产生介孔, 有利于产物分子的扩散, 从而影响催化活性。采用4 h、2 mol·L^-1草酸处理NaY分子筛作为载体制备的CuY催化剂显示出较高的催化性能, DMC时空收率和甲醇转化率分别从103.6 mg·g^-1·h^-1和6.3%增加到184.9 mg·g^-1·h^-1和10.2%。产生的介孔能够促进催化剂中铜活性位的可接近性及反应物分子和产物分子的扩散。     

预处理气氛对CuO/CeO2/γ-Al2O3催化剂表面性质及“NO+CO”反应性能的影响

用不同的预处理气氛制备了CeO₂/γ-Al₂O₃载体以调节表面Ce的价态,并以Cu(CH₃COO)₂为前驱体制备了CuCeAl催化剂。XRD和H₂-TPR的结果表明在还原气氛下处理的CeO₂/γ-Al₂O₃载体具有更多的活性氧原子,因此相应的CuCeAl催化剂表面有更多分散态的Cu²⁺/Cu⁺物种。NO+CO反应的结果表明分散态的Cu²⁺/Cu⁺是NO转化的活性物质,而Cu⁰在低温下具有较好的N₂选择性。因此,同时含有分散态Cu²⁺/Cu⁺和少量晶相Cu⁰的催化剂具有最好的催化性能。     

复合催化剂上CO2加氢合成C2烃类

介绍了由CO₂+H₂合成C2⁺烃的几种复合催化剂体系的研究进展，比较和评价了复合催化剂体系的活性和选择性及对C2⁺烃类生成的影响。着重于复合催化剂体系对C4⁺烃的生成及产物分布的影响并简述反应机理。     

CrOx/SiO2催化剂上丙烷在CO2气氛中脱氢反应的研究

采用XRD、UV-vis DRS、ESR和微分吸附量热等技术,考察了铬担载量分别为2.5、5和10wt%的CrO_x/SiO₂催化剂的结构、表面性质和氧化还原性能。结果表明,催化剂表面上存在多种Cr的氧化态和聚集形式。随着Cr担载量从2.5wt%到10wt%的逐渐增大,催化剂表面占主导地位的Cr物种由CrO₃单体转为多聚CrO₃和Cr₂O₃晶相。在CO₂气氛中催化剂对丙烷转化率和丙烯选择性的大小顺序为2.5wt%CrO_x/SiO₂>5wt%CrO_x/SiO₂>10wt%CrO_x/SiO₂,反应过程中的原位ESR和UV-visDRS测定结果表明,催化剂表面的反应活性中心为Cr⁵⁺,Cr⁵⁺可由催化剂预处理过程中Cr³⁺的氧化及丙烷反应过程中CrO₃单体的还原产生,在反应中CO₂可使Cr³⁺重新氧化为Cr⁵⁺.     

EuZn2Si2 and EuZn2Ge2 Grown from Zn or Ga(ln)/Zn Flux

Single crystals of the novel ternary compounds EuZn₂Si₂ and EuZn₂Ge₂ were grown from pure gallium, indium, or zinc metal used as a flux solvent. Crystal properties were characterized using X-ray single-crystal analyses via Gandolfi and Weissenberg film techniques and by four-circle X-ray single-crystal diffractometry. The new compounds crystallize with ternary derivative structures of BaAl₄, i.e., EuZn₂Si₂ with ThCr₂Si₂-type (a=0.42607(2) nm, c=1.03956(5) nm, I4/mmm, R₁=0.038) and EuZn₂Ge₂ with CaBe₂Ge₂-type (a=0.43095(2) nm, c=1.07926(6) nm, P4/nmm, R₁=0.067). XAS and magnetic measurements on EuZn₂Si₂ and EuZn₂Ge₂ revealed in both compounds the presence of Eu²⁺ ions carrying large magnetic moments, which order magnetically at low temperatures. The magnetic phase transition occurs at T_N=16 and 7.5 K for the silicide and the germanide, respectively. In EuZn₂Si₂ there occurs a spin reorientation at 13 K and furthermore some canting of antiferromagnetically ordered moments below about 10 K. In EuZn₂Ge₂ a canted antiferromagnetic structure is formed just at T_N.     

Ni2+掺杂Ti/SnO2-Sb2O5电极的制备及性能

采用溶胶凝胶法制备了Ni2+掺杂的Ti/SnO2-Sb2O5电极,并通过XRD、SEM、EDS、苯酚降解、加速寿命实验等技术手段,研究了Ni2+的掺杂对电极的结构、形貌、电催化性能及稳定性的影响。结果表明:Ni2+的掺入细化了SnO2晶粒,增大了电极的比表面积,改善了电极表面的龟裂程度,提高了电极的导电性能;相对于Ti/SnO2-Sb2O5电极Ni2+的掺入将苯酚完全降解的时间缩短为原来的40%,将电极的使用寿命提高为原来的4.8倍。     

Ti3+自掺杂的TiO2(A)/TiO2(R)/In2O3纳米异质结的制备与可见光催化性能

以TiCl₃和InCl₃为Ti源和In源,在不使用还原剂的条件下,首先通过液相沉淀反应制备前驱体沉淀,然后采用后续水热处理制备Ti³⁺自掺杂的TiO₂(A)/TiO₂(R)/In₂O₃纳米异质结,考察了水热处理温度对材料结构和性能的影响。利用X射线衍射、透射电子显微镜、X射线光电子能谱和紫外-可见漫反射光谱对样品进行表征。分别以罗丹明B和苯酚溶液为模拟废水评价了样品的可见光催化降解性能。结果表明,与纯的TiO₂、In₂O₃以及Ti³⁺自掺杂的TiO₂相比,Ti³⁺自掺杂的TiO₂(A)/TiO₂(R)/In₂O₃纳米异质结在可见光区有明显的吸收,并具有良好的可见光催化降解性能,200℃下水热处理24 h所得样品光催化降解罗丹明B的反应速率常数(0.0444 min^-1)分别是纯TiO₂和In₂O₃的17.76倍和8.71倍。瞬态光电流时间响应结果表明样品的光催化性能主要来源于TiO₂(A)/TiO₂(R)/In₂O₃纳米异质结导致的提高的光生电子和空穴分离效率。     

Syntheses, crystal structures and Raman spectra of Ba(BF4)(PF6), Ba(BF4)(AsF6) and Ba2(BF4)2(AsF6)(H3F4); the first examples of metal salts containing simultaneously tetrahedral BF4 and octahedral AF6 anions

In the system BaF₂/BF₃/PF₅/anhydrous hydrogen fluoride (aHF) a compound Ba(BF₄)(PF₆) was isolated and characterized by Raman spectroscopy and X-ray diffraction on the single crystal. Ba(BF₄)(PF₆) crystallizes in a hexagonal space group with a=10.2251(4) Å, c=6.1535(4) Å, V=557.17(5) Å³ at 200 K, and Z=3. Both crystallographically independent Ba atoms possess coordination polyhedra in the shape of tri-capped trigonal prisms, which include F atoms from BF₄⁻ and PF₆⁻ anions. In the analogous system with AsF₅ instead of PF₅ the compound Ba(BF₄)(AsF₆) was isolated and characterized. It crystallizes in an orthorhombic Pnma space group with a=10.415(2) Å, b=6.325(3) Å, c=11.8297(17) Å, V=779.3(4) Å³ at 200 K, and Z=4. The coordination around Ba atom is in the shape of slightly distorted tri-capped trigonal prism which includes five F atoms from AsF₆⁻ and four F atoms from BF₄⁻ anions. When the system BaF₂/BF₃/AsF₅/aHF is made basic with an extra addition of BaF₂, the compound Ba₂(BF₄)₂(AsF₆)(H₃F₄) was obtained. It crystallizes in a hexagonal P6₃/mmc space group with a=6.8709(9) Å, c=17.327(8) Å, V=708.4(4) Å³ at 200 K, and Z=2. The barium environment in the shape of tetra-capped distorted trigonal prism involves 10 F atoms from four BF₄⁻, three AsF₆⁻ and three H₃F₄⁻ anions. All F atoms, except the central atom in H₃F₄ moiety, act as μ₂-bridges yielding a complex 3-D structural network.     

CH2(X 3B1)与NO的基元化学反应研究

The reaction of methylene radicals in their 3 B1 electronic ground state with molecular NO was studied. Pure CH2(X 3 B1 ) radicals were produced by UV photolysis of ketene at 351 nm. The products were measured by Time-Resolved Fourier Transform Infrared (TR-FTIR) spectrometer. CO.OH .NH2 and HOCN or its isomer HNCO were found as primary products and several possible channels of this reaction were suggested.     

Theoretical sstudy on the Co2+OH2+/Co3+OH2+ electron transfer reactivity

This paper presents a contact distance dependence analysis scheme and an abinitio calculation application for the electron transfer (ET) reactivity of Co²⁺OH₂/Co³⁺OH² reacting pair. The applicability of these schemes and the corresponding models has been discussed. The contact distance (R _CoCo) dependence of the relevant quantities has been analyzed. The results indicate that the activation energy from the accurate PES method agrees well with that from the anharmonic potential method, and they are obviously better than that from the harmonic potential method. The pair distribution function varies from 10⁻² to 10⁻⁵ along withR _CoCo changing from 1.20 to 0.35 nm. The coupling matrix element exponentially decays along with the increase ofR _CoCo, and the effective electronic coupling requiresR _CoCo smaller than 0.75 nm. In the range from 0.50 to 0.75 nm forR _CoCo, the corresponding electronic transmission coefficient falls within 1.0—10⁻⁶. The local ET rate also exponentially decays along with the increase ofR _CoCo due to the electronic factor. Since the contribution from the pair distribution function to the total ET rate is an inverse measure of that from the electronic factor, the variation of the spherically averaged local ET rate along withR _CoCo exhibits a parabola with a maximum at 0.50 nm ofR _CoCo. This maximum is close to the overall observed ET rate value. For this mono-hydrated transition metal ionic system, the ET rate generally is about 10⁶ L·mol⁻¹·s⁻¹ in gaseous process. Further, since it is impossible to experimentally determine the structures and their PESs of these hydrated systems, especially for the unstable intermediate species,ab initio calculations can play an effective auxiliary role in discussing the ET reactivities of these kinds of reacting systems.     

La7O6(BO3)(PO4)2:Eu3+/Tb3+荧光材料的制备及其光致发光性能

采用优化的高温固相方法制备了稀土离子Eu³⁺和Tb³⁺掺杂的La₇O₆（BO₃）（PO₄）₂系荧光材料,并对其物相行为、晶体结构、光致发光性能和热稳定性进行了详细研究。结果表明,La₇O₆（BO₃）（PO₄）₂：Eu³⁺材料在紫外光激发下能够发射出红光,发射光谱中最强发射峰位于616 nm处,为⁵D₀→⁷F₂特征能级跃迁,Eu³⁺的最优掺杂浓度为0.08,对应的CIE坐标为（0.610 2,0.382 3）;La₇O₆（BO₃）（PO₄）₂：Tb³⁺材料在紫外光激发下能够发射出绿光,发射光谱中最强发射峰位于544 nm处,对应Tb³⁺的⁵D₄→⁷F₅能级跃迁,Tb³⁺离子的最优掺杂浓度为0.15,对应的CIE坐标为（0.317 7,0.535 2）。此外,对2种材料的变温光谱分析发现Eu³⁺和Tb³⁺掺杂的La₇O₆（BO₃）（PO₄）₂荧光材料均具有良好的热稳定性。     

Hydrothermal synthesis and luminescent properties of Sb-doped Sr3(PO4)2

Sb³⁺-doped Sr₃(PO₄)₂ crystals has been synthesized using phosphoric acid, strontium hydroxide and antimony powder as the raw materials through a hydrothermal reaction method. The crystallinity and the microstructure were investigated using X-ray diffraction and scanning electron microscopy. The photoluminescent property was investigated using luminescent spectrometer. Phase pure Sr₃(PO₄)₂ crystal was obtained and it has a shape of hexagonal rod. It showed the emission and excitation peaks at 396, 250, and 215 nm, respectively, indicating that the emission is attributed to ³P₁-¹S₀ transition and the excitation is attributed to ¹S₀-³P₁ and ¹S₀-¹P₁ transition. It was also observed that the intensity of photoluminescence is thermally stable up to 673 K.