不同粒径八面体纳米CeO_2的制备及其影响因素的探究

由于纳米CeO_2粒径和形貌的不同,导致其性质和应用的不同。本文以硝酸铈和磷酸钠为原料,采用水热法研究了不同粒径八面体纳米CeO_2的制备,考察了水热温度、磷酸钠的加入量、分散剂的种类和焙烧温度等因素对其粒径的影响规律,利用XRD和SEM对纳米颗粒的粒径和形貌进行表征分析。研究结果表明,通过控制反应条件,采用水热法可制备出平均粒径范围为35.2-67.3 nm的八面体纳米CeO_2,且分散度好,结晶性高。     

ZSM-5分子筛催化甲醇制汽油反应中的晶粒粒径效应研究

通过调控水热合成ZSM-5凝胶液中H_2O/Si物质的量比,实现了粒径为70、200、400和650 nm四种单分散ZSM-5的可控合成。采用XRD、TEM、BET和NH_3-TPD等多种表征对其微观结构进行分析,结合催化性能评价,考察了晶粒粒径对其催化甲醇制汽油反应性能的影响机制。结果表明,整体上随着ZSM-5晶粒粒径的增加,其外比表面积减小,结晶度提高,酸量呈现出先增加后基本不变的趋势。但外表面附着小晶粒的粒径为650 nm的分子筛体现出了大的外表面积和强的酸性。ZSM-5晶粒粒径的增加整体上降低了其催化MTG反应的寿命和最高收率。晶粒粒径为70 nm时,ZSM-5体现出了96 h的催化寿命和30.8%的最高收率。晶粒粒径为650 nm样品由于其大的外比表面积和较强的表面酸性,也体现出91 h的寿命。在大晶粒ZSM-5外表面附着生长小晶粒ZSM-5,是一种制备高性能催化剂的新方法。     

ZSM-5分子筛的粒径可控合成及其在甲醇转化中的催化作用

以四丙基氢氧化胺为模板剂、聚乙二醇为添加剂,水热合成了粒径在0.1～14 μm且分布均一的ZSM-5分子筛,并采用XRD、SEM、BET、Py-IR、NH₃-TPD和ICP等技术对其进行了表征,考察了不同粒径分子筛在甲醇转化制碳氢化合物反应中的催化作用。结果表明,通过调变PEG添加量、硅源种类和水含量以及控制陈化和晶化条件,可以在较大范围内调变分子筛晶粒尺寸。随着粒径的减小,ZSM-5晶粒的聚集程度、比表面积和Si/Al比提高,而结晶度、BrØnsted酸浓度和总酸量有所下降。在甲醇催化转化制碳氢化合物的反应中,粒径为0.1 μm的分子筛催化稳定性最好;随着粒径的增大,其稳定性逐渐下降,粒径为14 μm的分子筛催化剂寿命明显降低。同时,粒径对甲醇转化产物分布也有较大影响;小粒径分子筛有利于生成轻质烃类(C₁～C₄),而大粒径分子筛对C₅以上烷烃和芳烃的选择性较高。     

用于高通量药物筛选的PMMA-Alq3荧光微球的制备

八羟基喹啉铝(Alq3)存在下,在甲醇介质中由过氧化苯甲酰(BPO)引发甲基丙烯酸甲酯(MMA),通过分散聚合制得粒径为2μm～7μm的PMMA荧光微球,其粒径分布接近单分散,一致性系数为0．237。研究了影响微球粒径和粒度分布的多个因素。并对在Alq3存在下体系的反应机理进行了探讨。研究发现Alq3用量对产物的粒径和粒度分布影响显著。研究结果为制备大粒径荧光微球提供了技术依据。     

半连续和间歇式丙烯酸酯三元乳液共聚产物的形态及分子结构研究

研究了半连续和间歇式丙烯酸酯三元乳液共聚产物的形态和分子结构。结果表明,半连续式胶乳粒子呈“多核核壳结构”,其粒径和粒径分布随单体滴加速度减慢而变小。间歇式胶乳粒径较大,粒径分布亦更宽,呈硬相在外的“单核核壳结构”;共聚物分子链中VAc结构单元的序列较长。两种方法所获无规共聚物均存在微相分离结构,分离程度随单体滴加速度的加快而变大。     

负载小粒径Au纳米粒子SiO2亚微球的制备

Au纳米粒子(AuNPs),特别是小粒径(～1 nm)AuNPs的粒径、形貌和表面状态对其催化性能有着重要影响。本文介绍了以小粒径Ag纳米粒子(5 nm)为牺牲剂,通过金属置换反应,在SiO_2亚微球上生长表面裸露的小粒径AuNPs。由于Au NPs表面完全暴露该材料在氧化还原催化方面具有广阔的应用前景。     

亚微米分子筛粒径与性能的关联研究

对实验室合成的不同粒径的NaY分子筛进行了性能研究,表明比表面积、酸量随着粒径的减小而增加,粒径太小的分子筛其稳定性、活性低,不能满足FCC催化剂的使用要求,应用于FCC催化剂的分子筛合适粒径为500nm～800nm.     

pH值、盐浓度敏感性两性聚电解质微球的合成及性质

以丙烯酰胺(AM)、丙烯酰氧乙基三甲基氯化铵(DAC)和甲基丙烯酸(MAA)为单体,在乙醇介质中制备出对pH值、盐浓度双敏感的两性聚电解质微球。 采用透射电子显微镜(TEM)和红外光谱(IR)方法对其形貌和结构进行了表征。 研究了聚电解质微球在不同pH值溶液及NaCl、CaCl2盐溶液中粒径的变化情况。研究结果表明,第二步中反应制备的微球粒径为1 177 nm,多分散指数(PDI)为0.181;相比第一步反应制备的微球(d=764 nm;PDI=0.069)其粒径明显增大,PDI数值略有增加。当溶液pH＜4.3时,微球的粒径随溶液pH值的减小而逐渐增加;当pH＞4.3时,微球的粒径随溶液pH值的变大逐渐增加;pH=4.3时,微球的粒径具有最小值。盐溶液的pH值接近等电点时,在单价态NaCl溶液中,两性聚电解质微球表现出典型反聚电解质效应;而在多价态CaCl2溶液中,其粒径先增长再逐渐下降。     

微乳液和均匀沉淀耦合法制备CeO2纳米粒子

用W/O微乳液和草酸二甲酯均匀沉淀耦合法制备出单分散性好并具有较窄粒度分布的CeO2纳米粒子,测试了其形貌、粒径及粒径分布和晶体结构等特征.实验结果表明,表面活性剂的种类和反应物的相对初始浓度对产物平均粒径具有规律性的影响;随着焙烧温度升高,产物的平均粒径明显增大.     

晋城煤粒度变化对灰熔融性影响规律研究

探索山西晋城煤在灰熔聚流化床气化过程中的结渣机理。采用山西晋城无烟煤,将其破碎到不同粒径,采用XRF、XRD、AFT、SEM和FactSage~(TM)研究了煤的灰分、煤灰化学组成、矿物组成和熔融性随煤样粒径变化规律。结果发现,对于破碎到6 mm以下的晋城煤样,不同粒径子样煤灰化学组成和熔融温度差异不大;对于粉磨到0.2 mm以下的晋城煤粉样品,不同粒径子样化学组成和矿物组成存在较大差异,其中,铁含量差异最明显。AFT和SEM结果都证明,45μm粒径煤粉子样煤灰熔融温度明显高于其他三种样品。Fact SageTM计算得到的液相量变化规律和AFT、SEM观察结果一致,说明煤灰熔融性随粒径变化是煤灰化学成分离析造成的,而SiO2-Al_2O_3-Fe_2O_3三元相图较好地解释了晋城煤煤灰熔融性随粒径变化机理。     

Evaluation of flow properties of dry powder inhalation of salbutamol sulfate with lactose carrier

The effects of the flow and packing properties of a drug/carrier powder mixture on emission of drug adhering to the carrier from capsules and inhalation devices were investigated. Model powder mixtures were designed consisting of lactose carriers with different particle shapes were prepared by surface treatment and micronized salbutamol sulfate. These powder mixtures were aerosolized by a Spinhaler, and in vitro deposition properties of salbutamol sulfate were evaluated by a twin impinger. The flow properties of the mixed powders were evaluated by the Carr's flowability index (FI) and Hausner's ratio (HR). The packing properties of the mixed powders were determined employing the tapping method. Compared with the powder mixed with the untreated lactose carrier, the FI, HR, and the constant K in Kawakita's equation of the powder mixture prepared using the surface-treated lactose carrier were significantly different, showing that the flow and packing properties of the drug/carrier powder mixture were improved. Using this surface-treated system, the handling of the powder mixture when packing into capsules is improved, which is desirable for handling dry powder inhalants. The fraction (%) of drug emitted from capsules and devices (EM) and the FI of the powder mixture were correlated. As the flow properties improved, the outflow of the powder mixture from capsules and devices became easier, and emission of drug adhering on the carrier from capsules and devices improved. Improvement of the inhalation process, such as the drug particles emitted from the inhalation system, is valuable for increasing inhalation properties of dry powder inhalation.     

傅里叶变换红外光谱法分析乳制品的成分

利用甲醇沉淀进口奶粉、国产奶粉和奶茶粉水溶液中的蛋白质,所得上清液用二氯甲烷萃取,再经傅里叶变换红外光谱法(FT-IR)分析沉淀物和各相中物质的成分.试验结果表明:3种样品沉淀物中均含有蛋白质和脂肪酸甘油三酯,在萃取时均有乳糖析出.三者上层(水+甲醇)均含有糊精;而下层(二氯甲烷-甲醇)进口奶粉中含有磷脂酰胆碱,国产奶粉中含有磷脂酰胆碱和长碳链伯酰胺,奶茶粉中含有咖啡因.     

Influence of storage humidity on the in vitro inhalation properties of salbutamol sulfate dry powder with surface covered lactose carrier

The influence of storage humidity on the in vitro inhalation properties of salbutamol sulfate dry powder with surface covered lactose carrier was investigated. In the present study, drug/carrier powder mixtures were prepared consisting of micronized salbutamol sulfate and lactose carriers with different particle surface conditions prepared by surface covering. Lactose carrier surfaces were covered with vegetable magnesium stearate (Mg-St-V) by a high-speed elliptical-rotor-type powder mixer (Theta-Composer). These powder mixtures were aerosolized by a Jethaler), and the in vitro inhalation properties of salbutamol sulfate were evaluated by a twin impinger. Compared with the powder mixed with uncovered lactose carrier, the in vitro inhalation properties of the powder mixture prepared using the surface covered lactose carrier were little decreased with increased in relative humidity (RH), showing that the in vitro inhalation properties of salbutamol sulfate were improved at high RH. Using this surface covering technique would thus be valuable for storage humidity of dry powder inhalation (DPI) with lactose carrier particles.     

Effect of surface layering time of lactose carrier particles on dry powder inhalation properties of salbutamol sulfate

The effect of the surface layering time of lactose carrier particles on the dry powder inhalation properties of salbutamol sulfate was investigated. Lactose carrier particles were layered with vegetable magnesium stearate by physical mixing. In the present study, drug/carrier powder mixtures were designed consisting of micronized salbutamol sulfate and lactose carriers with various particle surface conditions prepared by surface layering. These powder mixtures were aerosolized by a Jethaler, and the in vitro deposition properties of salbutamol sulfate were evaluated by a twin impinger. Compared with the powder mixed with unlayered lactose carrier, the in vitro inhalation properties of the powder mixture prepared using the surface layering lactose carrier were significantly different, showing that the in vitro inhalation properties of the drug/carrier powder mixtures were improved. In vitro deposition properties (RP) increased with surface layering time. Using this surface layering system would thus be valuable for increasing the inhalation properties of dry powder inhalation.     

Effect of surface covering of lactose carrier particles on dry powder inhalation properties of salbutamol sulfate

The effect of the surface covering of lactose carrier particles on the dry powder inhalation properties of salbutamol sulfate was investigated. Lactose carrier surfaces were covered with sucrose tristearate (J-1803F) by a high-speed elliptical-rotor-type powder mixer (Theta-Composer). In the present study, drug/carrier powder mixtures were prepared consisting of micronized salbutamol sulfate and lactose carriers with various particle surface conditions prepared by surface covering. These powder mixtures were aerosolized by a Jethaler), and the in vitro inhalation properties of salbutamol sulfate were evaluated by a twin impinger. Compared with the powder mixed with uncovered lactose carrier, the in vitro inhalation properties of the powder mixture prepared using the surface covering lactose carrier were significantly different, showing that the in vitro inhalation properties of salbutamol sulfate were improved. In vitro inhalation properties increased with the percentage of J-1803F added. Using this surface covering system would thus be valuable for increasing the inhalation properties of dry powder inhalation with lactose carrier particles.     

Thermal and structural characterization of superfine down powder

The thermal degradation of down fiber and down powder was studied using TG, DSC, TG-FTIR, and ATR-FTIR as a function of mass loss. For both down fiber and down powder, two evident mass loss stages were observed. Compared to down fiber, down powder had higher moisture and lower thermal stability. The oxygen in air weakened the mass loss of superfine down powder in the temperature range of 300–530 °C, and accelerated the oxidation–reduction reaction between oxygen and powder when the temperature was over 530 °C. The microstructures of down fiber and down powder were investigated on the analysis of DSC results. As the decrease in the average particle size of down powder, the absorbed energy of the destruction of crystallinity, rupture of crosslinks and thermal degradation of peptide bonds decreased, respectively. The gases evolved during thermal degradation of superfine down powder were inspected by in situ FTIR, and then the solid residues collected at different temperature were analyzed using ATR-FTIR. The color evaluation of superfine down powder hot-pressed at high temperature was discussed to confirm the best hot-processing condition.     

Korngrößenänderung beim Carburieren von Wolfram und Sintern von Wolframcarbid

The change of grain size during each stage of the process was studied, mainly by optical and electron microscopy. The grain size has a marked effect on the properties of cemented carbide. In order to determine the process of formation of WC powder, the cross section and the surface of the carburized powder were examined microscopically. The mechanisms of carburization and grain growth were clarified. The microstructural relationship between the WC powder and the cemented carbide was also determined. The Co from the ball milled WC-Co mixed powder was extracted and the remaining WC powder was studied microscopically and by determining the grain size distribution. Methods of particle crushing and their effect on differences between various forms of WC powder were studied. Grain growth in sintering and the effect of grain size distribution were also studied. It was concluded that grain growth begins long before the appearance of the liquid phase. Finally it was pointed out that the inner structure of WC should be studied at the atomic level.     

Effects of surface processing of lactose carrier particles on dry powder inhalation properties of salbutamol sulfate

The effects of the surface processing of lactose carrier particles on the dry powder inhalation properties of salbutamol sulfate were investigated. Lactose carrier particles were processed using a high-speed elliptical-rotor-type powder mixer (Theta-Composer). In the present study, drug/carrier powder mixtures were prepared, consisting of micronized salbutamol sulfate and coarse lactose carriers with various particle surface conditions prepared by surface processing. These powder mixtures were aerosolized by a Jethaler, and the in vitro inhalation properties of salbutamol sulfate were evaluated with a twin impinger. Compared with those of the powder mixed with unprocessed lactose carriers, the in vitro inhalation properties of the powder mixture prepared using the surface processed lactose carriers were significantly different, showing that the in vitro inhalation properties of salbutamol sulfate were improved. The in vitro inhalation properties increased with the rotor rotation rate. Using this surface processing system would thus be valuable for increasing the inhalation properties of dry powder inhalation with lactose carrier particles.     

Preparation of dry powder inhalation with lactose carrier particles surface-coated using a Wurster fluidized bed

An attempt was made to produce carrier particles for dry powder inhalation with lactose carrier particles surface-coated using a Wurster fluidized bed. The lactose carrier particles were coated with lactose aqueous solution containing hydroxypropyl methyl cellulose (HPMC) as a binder using a Wurster coating apparatus. Drug/carrier powder mixtures were prepared consisting of micronized salbutamol sulfate and lactose carriers under various particle surface conditions. These powder mixtures were aerosolized by a Jethaler((R)), and the in vitro deposition properties of salbutamol sulfate were evaluated by a twin impinger. The in vitro inhalation properties of the powder mixture prepared using the coated lactose carrier differed significantly compared with those of the powder mixture prepared using the uncoated lactose carrier, indicating improvements in in vitro inhalation properties of sulbutamol sulfate. In vitro inhalation properties increased with the surface coating time. This surface coating system would thus be valuable for increasing the in vitro inhalation properties of dry powder inhalation with lactose carrier particles.     

Structure and Property Characterization of Oyster Shell Cementing Material

Oyster shell powder was used as the admixture of ordinary portland cement.The effects of different addition amounts and grinding ways on the strength and stability of cement mortar were discussed and proper addition amount of oyster shell powder was determined.The structure and property changes of cementing samples with different oyster shell powder contents were tested by XRD and SEM means.The results revealed that compressive and rupture strengths of the sample with 10% oyster shell powder was close to those of the original one without addition.Stability experiment showed that the sample prepared by pat method had smooth surface without crack and significant expansion or shrinkage after pre-curing and boiling,which indicated that cementing material dosed with oyster shell powder had fine stability.XRD and SEM observation showed that oyster shell independently exists in the cementing material.