金属酞菁与高价金属盐或氧化物在乙苯液相催化氧化反应中的协同效应

金属络合物催化饱和烷烃的选择性催化氧化一直是有机合成中具有挑战性的课题之一.饱和烷烃的催化氧化可采用各种氧源,如PhIO、H2O2、有机过氧化物或次氯酸盐等[1,2],然而采用分子氧为氧源对烃类化合物进行选择性催化氧化一直是人们致力于解决的目标.利用分子氧为氧源实现饱和烷烃的选择性催化氧化大致可分为两条路线:(1)在共还原剂(H2,醛,抗坏血酸)存在下利用原位产生的氧化剂的催化氧化[3,4];(2)金属卟啉[5]、杂多酸[6]及其它催化剂对饱和烷烃的直接催化氧化.路线(1)需要消耗大量的共还原剂,实际上是对分子氧的间接利用,不具有明显的实…     

铈(Ⅳ)与焦磷酸盐的配位作用

考察了在焦磷酸盐水溶液中用O₃氧化Ce(Ⅲ),生成的Ce(Ⅳ)与P₂O₇^4-的作用情况,并对不同条件下所得的固体进行了研究。     

柴油机尾气碳黑氧化催化剂钛酸钾的制备与表征

以TiO₂和K₂CO₃为原料,采用固相法合成K/Ti比不同的钛酸钾催化剂。利用XRD和SEM对催化剂结构进行表征,并通过程序升温反应（TPR）对催化剂活性进行评估。结果表明,K₂Ti₂O₅在850℃达到较好的结晶度,分别以CH₃COOK、KNO₃及K₂CO₃作为K前驱体时,制备出的K₂Ti₂O₅结晶程度基本一致;K/Ti比较高的K₂Ti₂O₅可明显降低碳黑颗粒氧化温度,最低起燃温度为280℃,且K₂Ti₂O₅比担载贵金属Pt催化剂的碳黑氧化催化活性更高。     

二元析氧催化剂CoxCr1-xO3/2的制备及性能研究

用热分解法制得不同混合比例的二元金属氧化物催化剂Co_xCr_1-xO_3/2（x = 0,0.2,0.4,0.6,0.8,1）,使用SEM、XRD和XPS观察表征催化剂形貌、晶型和价态,使用线性扫描伏安、阶梯波伏安和恒电位测试电极活性、过电位和稳定性. 结果表明,该Co₃O₄和绿铬矿型Cr₂O₃混合物形成固溶体Co_xCr_1-xO_3/2. x = 0.2时,Co_0.2Cr_0.8O_3/2电极性能较单一Co₃O₄和Cr₂O₃电极好,在高电位（1.0 V vs. Ag/AgCl）,其电流强度是Co₃O₄的3.75倍,Cr₂O₃的15.2倍,其过电位（η = 0.0703 V）也较Co₃O₄（η = 0.6109 V）和Cr₂O₃（η = 0.435 V）小,催化性能最好,在强碱性溶液（pH=13）中有良好的稳定性.     

钾改性氧化铝基羰基硫水解催化剂及其失活机理

天然气、油田伴生气、高炉煤气等化工生产过程中伴生COS气体,不仅会腐蚀管道和毒害催化剂,还会严重污染环境并危害人类健康。COS催化水解反应可在温和条件下高效的将COS脱除,是最具应用前景的COS脱除技术之一。碱金属元素因其具有独特的电子供体性质、表面碱性和静电吸附等特性,常被用作助催化剂以提高Al₂O₃的COS催化水解性能。近年来,以钾为助剂改性的Al₂O₃催化剂(K₂CO₃/Al₂O₃)在COS催化水解反应中得到广泛的应用,但由于负载在Al₂O₃上的K物种的组成复杂,目前研究者对K₂CO₃/Al₂O₃催化剂上COS水解机理的理解仍存在一定的困惑和争议。本论文通过湿法浸渍法合成出一系列钾盐和钠盐改性的Al₂O₃催化剂,并利用各类先进的表征技术对这些催化剂进行分析。活性测试表明,以K₂CO₃、K₂C₂O₄、NaHCO₃、Na₂CO₃和NaC₂O₄改性Al₂O₃催化剂均有助于COS的水解。其中K₂CO₃/Al₂O₃拥有最佳的COS水解性能,连续运行20 h后其COS转化率仍高于~93%,远远优于未改性的Al₂O₃ (~58%)。我们利用原位红外光谱和X射线光电子能谱探明了反应过程中催化剂的化学结构特征,阐明了H₂O分子在K₂CO₃/Al₂O₃上的水解作用机制。原位红外表明COS在K₂CO₃/Al₂O₃上的水解过程中形成了硫代碳酸氢盐中间产物。X射线光电子能谱表征证明催化剂的失活主要是因为催化剂表面积累了硫酸盐和单质硫。此外,我们还研究了水蒸气含量对COS水解性能的影响,研究发现,由于H₂O和COS分子在催化剂表面存在竞争吸附,过量的H₂O会引起催化活性的下降。上述研究表明,K₂CO₃/Al₂O₃催化剂上COS水解性能的提高主要是形成了HO-Al-O-K界面活性位。更为重要的是,所制备的催化剂都是在模拟工业工况条件下进行的,这为后续的工业应用提供了宝贵理论指导。本工作为理解助剂钾在Al₂O₃催化剂上COS水解活性的增强提供了新的见解,这为未来设计稳定高效的COS水解催化剂打开了新的发展方向。     

固体碱催化剂K_2CO_3/Al_2O_3的制备及其催化餐饮废油制生物柴油的性能

采用浸渍法制备了K2CO3/Al2O3固体碱催化剂,考察了活性组分负载量、焙烧温度、焙烧时间等制备条件对催化剂在催化餐饮废油合成生物柴油的酯交换反应中催化活性的影响,并对其进行了FT-IR、XRD、TG-DTG、SEM和BET表征分析。实验结果表明,所制备的催化剂在催化餐饮废油合成生物柴油的酯交换反应中表现出良好的活性,在活性组分K2CO3负载量为50%、焙烧温度500℃、焙烧时间3 h的条件下制备的催化剂催化酯交换反应时,生物柴油产率可达86.70%。催化剂表征结果显示,K2CO3/Al2O3催化活性是因K2CO3与Al2O3经高温焙烧产生新的晶相有关。催化剂重复使用4次,生物柴油产率仍在75%以上。制得的生物柴油产品质量达到国家生物柴油B100标准。     

Synthesis and study of Bi2Ti2O7/TiO2 composites as efficient visible-light-active photocatalysts in the reduction of aqueous Cr(VI)

In this work, Bi_2Ti_2O_7/TiO_2 composites were synthesized and studied as potential visible-light-activated photocatalysts in the reduction of aqueous Cr(VI). Bi_2Ti_2O_7/TiO_2 composites with tunable compositions were synthesized via a solvothermal-calcination two-step method, simply by changing the molar ratios of Bi(NO_3)_3·5H_2O to tetrabutyl titanate in the reactants. The compositions, structures and optical properties of the as-synthesized Bi_2Ti_2O_7/TiO_2 composites were characterized by X-ray diffraction, field emission scanning electron microscopy and UV–vis diffuse reflectance spectra. The photocatalytic activity of the as-synthesized Bi_2Ti_2O_7/TiO_2 composites was tested in the reduction of aqueous Cr(VI)under visible-light(λ420 nm) irradiation, and compared with that of TiO_2 nanoparticles. It was observed that the as-synthesized Bi_2Ti_2O_7/TiO_2 composites exhibited much higher photocatalytic activity than TiO_2 nanoparticles, and the most efficient composite(300 mg) can achieve the complete reduction of Cr(VI) in 300 mL of 50 mg/L K_2Cr_2O_7 aqueous solution under visible-light(λ420 nm)irradiation in 90 min.     

N_2O在钾改性Cu-Co尖晶石型复合氧化物上的催化分解(英文)

制备了几个不同组成的Cu-Co尖晶石型复合氧化物,用于N2O分解反应,在活性较高的Cu0.8Co0.2Co2O4表面浸渍碱金属盐溶液,制备改性催化剂,考察了碱金属助剂类型、钾前驱物和钾负载量等对改性催化剂活性的影响。用BET、XRD、SEM、XPS等方法表征了催化剂结构。结果表明,几种碱金属碳酸盐改性Cu0.8Co0.2Co2O4的催化活性发生了显著变化,其中,K改性催化剂的活性有明显提高,而Cs的表面改性反而降低了催化剂活性;钾前驱物对K/Cu-Co的催化活性也有较大影响,其中,加入碳酸钾明显提高了催化剂的活性,而加入硝酸钾和醋酸钾反而降低了催化剂活性;有氧无水、有氧有水气氛中,400!C下N2O在碳酸钾改性催化剂0.05K/Cu0.8Co0.2Co2O4上的转化率分别达到了100%和87.6%;该催化剂在400!C下的恒温反应活性和稳定性均高于未改性催化剂。     

Thermal solid–solid interactions and physicochemical properties of NiO/Fe2O3 system doped with K2O

The effects of calcination temperature and doping with K₂O on solid–solid interactions and physicochemical properties of NiO/Fe₂O₃ system were investigated using TG, DTA and XRD techniques. The amounts of potassium, expressed as mol% K₂O were 0.62, 1.23, 2.44 and 4.26. The pure and variously doped mixed solids were thermally treated at 300, 500, 750, 900 and 1000 °C. The catalytic activity was determined for each solid in H₂O₂ decomposition reaction at 30–50 °C. The results obtained showed that the doping process much affected the degree of crystallinity of both NiO and Fe₂O₃ phases detected for all solids calcined at 300 and 500 °C. Fe₂O₃ interacted readily with NiO at temperature starting from 700 °C producing crystalline NiFe₂O₄ phase. The degree of reaction propagation increased with increasing calcination temperature. The completion of this reaction required a prolonged heating at temperature >900 °C. K₂O-doping stimulates the ferrite formation to an extent proportional to its amount added. The stimulation effect of potassium was evidenced by following up the change in the peak height of certain diffraction lines characteristic NiO, Fe₂O₃, NiFe₂O₄ phases located at “d” spacing 2.08, 2.69 and 2.95 Å, respectively. The change of peak height of the diffraction lines at 2.95 Å as a function of firing temperature of pure and doped mixed solids enabled the calculation of the activation energy (ΔE) of the ferrite formation. The computed ΔE values were 120, 80, 49, 36 and 25 kJ mol⁻¹ for pure and variously doped solids, respectively. The decrease in ΔE value of NiFe₂O₄ formation as a function of dopant added was not only attributed to an effective increase in the mobility of reacting cations but also to the formation of potassium ferrite. The calcination temperature and doping with K₂O much affected the catalytic activity of the system under investigation.     

Vc-Functionalized Fe3O4 Nanocomposites as Peroxidase-like Mimetics for H2O2 and Glucose Sensing

A simple and efficient colorimetric biosensing for hydrogen peroxide and glucose with peroxidase-like vitamin C(V_c) functionalized Fe₃O₄ magnetic nanoparticles(V_c/Fe₃O₄MNPs) as a catalyst is reported. Compared with Fe₃O₄ MNPs and other catalysts, V_c/Fe₃O₄ MNPs exhibited superior catalytic properties. Kinetic studies indicated that vitamin C incorporated on Fe₃O₄ MNPs improved the affinity toward H₂O₂. As low as 0.29 μmol/L H₂O₂ can be detected with a wide linear range of 0.5—100 μmol/L H₂O₂; moreover, as low as 0.288 μmol/L glucose can be detected with a linear range of 0.5—25 μmol/L glucose. The detection method was highly sensitive in sensing H₂O₂ and glucose. The robustness of V_c/Fe₃O₄ MNPs rendered them suitable for wide ranging applications.     

模拟烟气气氛下矿物元素组分对砷的吸附特性研究

利用气相砷吸附反应实验装置,研究了300-900℃条件下CaO、Fe₂O₃、MgO、Al₂O₃、K₂SO₄及钙铁混合吸附剂在模拟烟气气氛下的As₂O₃（g）吸附特性。结果表明,在五种单元素吸附剂中,CaO的吸附能力最强,K₂SO₄最弱;随着温度升高,CaO的吸附量先增加,在700℃时略微下降后又增加,Fe₂O₃的吸附量先增加后减少,MgO、Al₂O₃、K₂SO₄的吸附量一直增加;三种比例的钙铁混合吸附剂的吸附效果的实验值相比计算值至少提高了92%,Ca：Fe比为3：1时,吸附效果最好,达到7.91 mg/g。混合后烧结反应导致表面结构改变是吸附效果提升的重要原因。     

NiO/Al_2O_3催化剂上二氧化碳气氛下异丁烷耦合脱氢制异丁烯

研究了二氧化碳气氛下NiO/Al2O3催化剂上异丁烷脱氢制异丁烯的反应性能,考察了助剂K2O对NiO/Al2O3催化性能的影响。结果表明,与在惰性气氛下的反应相比,在二氧化碳气氛下异丁烷脱氢与逆水煤气变换反应耦合,促进了异丁烷脱氢反应,异丁烯的收率得到提高。助剂K2O的加入,能降低催化剂的酸性,减缓反应过程中催化活性物种NiO的过度还原,并抑制异丁烷裂解及积炭生成等副反应,从而提高了异丁烯的收率以及催化剂的稳定性。     

A high-efficient amperometric hydrazine sensor based on novel electrospun CoFe2O4 spinel nanofibers

HeterojunctionFe_2O_3 nanoparticles(NPs), NiFe_2O_4 nanofibers(NFs), and CoFe_2O_4 NFs were synthesized by electrospinning and the subsequent thermal treatment processes. Characterization results indeed display the three-dimensional net-like textural structures of these as-electrospun spinel-type MFe_2O_4 NFs. The MFe_2O_4 NFs-based film configurations possess abundant micro/meso/macropores on their surface. These structures could afford more accessible transport channels for effective reduction of the mass transport resistance and improvement of the density of exposed catalytic active sites. All these advantages are responsible for the enhanced electro-catalytic performance of these MFe_2O_4 NFs in hydrazine oxidation. When used for hydrazine detection, CoFe_2O_4 NFs show the best catalytic efficiency.For example, the CoFe_2O_4 NFs possess a large sensitivity of 1327 mA cmà2(mmol Là1[à1in the linear range of 0.01 to 0.1 mmol Là1and 503 mA cmà2(mmol Là1)à1in the linear range of 0.1 to 11 mmol Là1, a response time of shorter than 3 s, good reproducibility and remarkable long-term stability. The superior catalytic efficiency, excellent stability, low cost, and ease of fabrication render CoFe_2O_4 NFs very promising materials in developing an electrochemical device that directly detects hydrazine.     

CO在超临界水中的转化以及碱性钾盐的影响

构建了CO高压溶解的进气系统,在连续式反应系统中对超临界水条件下CO的转化规律进行了研究;针对生物质超临界水气化中钾盐的多样性,选择KHCO₃、K₂CO₃和KOH等三种钾盐成分,研究了它们在不同工艺条件（450-600℃、23-29 MPa、停留时间3-6 s）下对超临界水中水煤气转化过程的影响。结果表明,在无催化条件下,提高反应温度、延长停留时间均提高了CO的转化率,而压力对其影响在低压下（23-25 MPa）比较大,高压下（25-29 MPa）比较小,水煤气转化的反应动力学方程为k=10^3.75×exp（-0.66×10⁵/RT）（s^-1）。碱性钾盐均能显著提高CO转化率,其催化促进程度从大到小依次为：KHCO₃>K₂CO₃>KOH。添加碱性钾盐时,提高反应温度、延长停留时间均提高CO转化率,而压力的影响比较复杂。碱性盐对水煤气转化反应的催化是通过草酸盐（HC₂O₄^-）和甲酸盐（HCOO^-）作为中间产物进行的。     

K-Ce0.5Zr0.5O2催化碳颗粒物燃烧性能

用等体积浸渍法制备了不同K负载量的xKNO₃-Ce_0.5Zr_0.5O₂系列催化剂，用程序升温氧化反应(TPO)考察催化剂对碳颗粒物(soot)燃烧的催化活性. 并采用XRD、BET、FT-IR、XPS等技术对KNO3负载催化剂进行表征. 结果表明KNO₃负载量对催化剂的比表面、表面化学环境有显著的影响；KNO₃能使催化剂对soot的催化燃烧活性有较大提高，且存在最佳负载量，当x=0.5时，催化剂的活性最好，碳颗粒物的起燃温度（Ti）和峰顶温度（Tp）分别为290 ℃和360 ℃. 在反应过程中，KNO₃熔融状态的形成和K₂CO₃的生成，使催化活性明显提高.     

Catalysis by hetropoly compounds. Part XXVI. Gas phase synthesis of methyl tert-butyl ether over heteropolyacids

Gas phase synthesis of methyl tert-butyl ether (MTBE) from methanol and isobutylene has been studied with several heteropolyacids at 303–383 K. It was found that a Dawson-type heteropolyacid, H₆P₂W₁₈O₆₂, was much active than Keggin-type heteropolyacids, H_nXW₁₂O₄₀ (X = P, Si, Ge, B, and Co), and other solid acids such as SO²⁻₄/ZrO₂, SiO---Al₂O₃ and H-ZSM-5 at 323 K. Since the acid strength of H₆P₂W₁₈O₆₂ was weaker than H₃PW₁₂O₄₀ and H₄SiW₁₂O₄₀, factors other than the acid strength are important for the catalytic activity. Pseudoliquid phase behavior was demonstrated for H₆P₂W₁₈O₆₂ and H₃PW₁₂O₄₀ by the measurements of the absorption of methanol during the reaction and by the unique pressure dependencies of the rate of synthesis. From the absorption data (the amount and rate), it is concluded that the high catalytic activity of H₆P₂W₁₈O₆₂ is brought about by a high-activity state of the pseudoliquid phase in which controlled amounts of molecule are absorbed and the absorption-desorption is rapid. On the other hand, the pseudoliquid phase of H₃PW₁₂O₄₀ is in a low-activity state absorbing excessive amounts of molecule.     

气相色谱法研究配位化合物的热稳定性(Ⅶ)——Ni(Ⅱ)、Co(Ⅱ)草酸配合物的热分解及产物的催化性能

镍(Ⅱ)、钴(Ⅱ)草酸配合物在氢气中热分解时产生CO₂和CO,并发生加氢催化反应.CoC₃O₄和NiC₂O₄的分解产物CO₂加氢活性很快降低;K₂O等具有分散金属的作用。CoC₂O₄/Al₂O₃和K₂^{[Co(C₂O₄)₂]}/Al₂O₃体系具有Al₂(C₃O₄)₃的分解特征。C₂O₄^2-在Al₂O₃表面能形成表面配合物,在Al₂O₃表面Co(Ⅱ)的还原较为困难。     

KF/Al2O3催化剂上苯脲醇解合成苯氨基甲酸甲酯的研究

采用浸渍法制备负载KF固体碱催化剂,应用于苯脲和甲醇制备苯氨基甲酸甲酯的反应,考察了氧化物载体、卤化钾种类对催化剂性能的影响,KF/Al₂O₃催化剂显示出良好的催化活性和苯氨基甲酸甲酯的选择性。通过对KF/Al₂O₃催化剂中KF的负载量和催化剂焙烧温度的研究发现,在500 ℃焙烧4 h、负载质量分数50%KF的催化剂能够更好地促进MPC生成,苯脲转化率和苯氨基甲酸甲酯选择性分别达到96.5%和86.3%。XRD分析表明,KF与Al₂O₃之间存在较强的相互作用,部分转化为K₃AlF₆。KF与K₃AlF₆分别对甲醇的活化和苯脲的选择性起促进作用,两者的协同效应共同促进了目标产物苯氨基甲酸甲酯的生成。     

K_xFe_yO_z对煤化学链催化燃烧性能影响研究

以廉价的钙铝水泥作为载氧体制备过程的载体,并以机械混合-挤压成型造粒法制备了基于Fe2O3为载氧体活性相、钙铝水泥为载体的新型载氧体。在单流化床反应器上研究了钙铝水泥添加比例以及钾添加剂对合成载氧体的化学链燃烧性能的影响。研究结果表明,合成载氧体中载体以Ca2Al2SiO7形式存在,钾的添加显著提高了煤气化反应速率以及煤转化速率,钾在稳定相中以K2Fe22O34存在。K2Fe22O34在煤化学链燃烧过程的催化性能体现在其作为储钾相与KFeO2相的形态转变过程中。     

Mn离子掺杂对K2MnxAl12-xO19-δ催化剂结构及其甲烷燃烧性能的影响

采用反相微乳液-金属醇盐水解法制备了K作为镜面阳离子,锰离子作为活性组分的一系列六铝酸盐催化剂K₂Mn_xAl_12-xO_19-δ(x=0、1.0、1.5、2.0、2.5、3.0) 。通过X射线衍射、差热 热重和程序升温还原等实验技术及甲烷燃烧,对催化剂的结构和性质进行了考察。主要考察了不同Mn离子的掺杂量对催化剂结构及对甲烷催化燃烧活性的影响。结果表明,K作为镜面阳离子,不但可以形成完整的六铝酸盐,而且所制备的催化剂具有较高的催化活性。不同的Mn离子掺杂对于催化剂的特性有较大的影响。当Mn的掺杂量在六铝酸盐K₂Mn_xAl_12-xO_19-δ结构式中为x=1时,制备的催化剂K₂MnAl₁₁O_19-δ具有较高的催化活性,起燃温度Tl0%为458℃,至676℃甲烷完全转化,Mn掺杂量增多导致晶体结构中出现钙钛矿杂质。