从头开始理解形貌依赖的CuOx-CeO2相互作用

CuOx/CeO2催化剂在CO氧化反应中表现出高催化活性和显著结构敏感性.文献报道中CuOx/CeO2催化剂体系的合成条件差异较大,从而导致观察到的CuOx-CeO2相互作用存在较大争议.因此,系统研究并阐明CuOx/CeO2催化剂中CuOx-CeO2相互作用对于理解复杂的CuOx-CeO2界面催化作用具有重要的研究意义.近期发现,氧化物纳米晶的形貌可作为一种新的结构参数,在不改变氧化物催化剂组成的条件下实现其结构和性能的调控.本文以不同形貌CeO2纳米晶为载体,包括优先暴露{110}+{100}晶面的CeO2纳米棒、优先暴露{100}晶面的CeO2纳米立方体和优先暴露{111}晶面的CeO2纳米多面体,采用等体积浸渍方法合成了Cu担载量为0.025%~5%的CuOx/CeO2纳米晶催化剂,结合谱学和电镜表征方法,以及CO吸附原位红外光谱,系统研究了CuOx物种在不同形貌CeO2纳米晶上的结构演化及其催化CO氧化的构-效关系.结构表征结果表明, CuOx物种结构不仅依赖于Cu的担载量,也依赖于载体CeO2的形貌.随着Cu担载量的增加, CuOx物种优先沉积在CeO2的表面缺陷位,然后聚集和长大;同时伴随着CuOx物种从孤立Cu离子到与载体强/弱相互作用的CuOx团簇,高分散Cu O颗粒和大尺寸Cu O颗粒.孤立Cu^+离子和与载体弱相互作用CuOx团簇主要形成于CeO2纳米立方体的表面,这可能与CeO2纳米立方体暴露的氧终止CeO2{100}晶面相关.CO吸附原位红外结果表明, CuOx团簇与不同CeO2表面相互作用的强度顺序为:CeO2纳米棒暴露的{110}面>CeO2纳米多面体暴露的{111}面>CeO2纳米立方体暴露的{100}面.CeO2纳米立方体与Cu2+离子间相互作用弱于与Cu^+之间的,因此CeO2纳米立方体负载的CuOx物种在CO还原过程中容易停留在稳定的Cu^+中间物种;而CeO2纳米棒与Cu2+离子之间的相互作用强于与Cu^+之间的相互作用,因此CeO2纳米棒负载的CuOx物种在CO还原过程中容易形成金属铜.因此CO吸附原位红外光谱观察到CeO2纳米立方体负载CuOx催化剂中吸附在Cu^+的CO物种远远多于CeO2纳米棒负载CuOx催化剂.CO氧化反应结果表明, CuOx/CeO2催化剂表现出同时依赖于CuOx物种结构和CeO2形貌的结构敏感性.CuOx/CeO2催化剂活性表现出与CuOx/CeO2催化剂的CO还原性能的正相关性,说明中CuOx/CeO2催化CO氧化反应遵循Mv K反应机理.这些结果系统地关联了CeO2形貌, CuOx-CeO2相互作用, CuOx物种结构和CeO2还原性能, CuOx/CeO2催化CO氧化反应活性.     

Microwave-assisted extraction (MAE) combined with gas chromatography–mass spectrometry (GC–MS) for determination of volatile small molecules to evaluate compatibility of antimicrobial peptide PL-5 spray with packaging materials

A simple and efficient method involving microwave-assisted extraction (MAE) combined with GC–MS was established to determine 1,3-di-tert-butylbenzene (DBB), 2,4-di-tert-butylphenol (DBP), 3,5-di-tert-butyl-4-hydroxybenzaldehyde (DBHBA) for evaluating the compatibility of antimicrobial peptide PL-5 spray with drug-packaging materials. In this study, the antimicrobial peptide PL-5 spray was purified using a Welchrom C18 column, and the high-density polyethylene spray bottle with liquid collection tube was first mixed with absolute ethanol, which would be subjected to MAE for further measurement by GC–MS. Various experimental parameters were systematically optimized, and good linearities were obtained within the range of 0.05–1.00 μg/mL for DBB and DBHBA and 0.50–10.00 μg/mL for DBP, with limits of detection (LODs) of 0.99 ng/mL (DBB), 16.34 ng/mL (DBP), and 1.64 ng/mL (DBHBA). Satisfactory recoveries that ranged from 96.0% to 107.2% were acquired, and the relative standard deviation was ≤ 4.7%. The results showed that the maximum daily usage of DBB, DBP, and DBHBA was 9.859, 163.445, and 16.399 ng, respectively, which was far below the corresponding permitted daily exposure values according to the safety assessment, indicating that the migration of analytes did not bring any potential safety risk. The compatibility between the drug and the packaging materials was favorable.     

A novel sol-gel calix[4]arene-modified capillary column for open-tubular capillary electrochromatography

A novel open-tubular CEC (OT-CEC) column was prepared by immobilized 5,11,17,23-tetra-tert-butyl-25,27-diethoxy-26,28-dihydroxy-calix[4]arene (Calix[4]) on fused-silica capillary column with sol-gel technology. Calix[4] was initially reacted with gamma-glycidoxypropyltrimethoxysilane (KH-560) to form a new sol-gel precursor (calix[4]-KH-560), and then mixed with another precursor, namely tetraethoxysilane (TEOS). After hydrolysis and condensation, a sol-gel matrix was obtained, in which calix[4] was incorporated. Successful calix[4]-modified sol-gel coating was suggested by infrared (IR) spectra and greatly decreased EOF. In comparison with OT columns prepared by the sol-gel method with TEOS and KH-560 only, the calix[4]-modified sol-gel column showed greatly improved separation of isomeric toluidines, nitrophenols, picolines and neurotransmitters with structural similarity. Migration time and theoretical plate number reproducibility were satisfactory with RSDs less than 1 and 6% each for within column runs and not more than 3 and 7% each for column-to-column measurements, using toluidine and nitrophenol isomers as test solutes on this column. High separation efficiencies (96,000-300,000 plates/m) for basic toluidine isomers were obtained. This column was also successfully employed to combine extraction procedure for the determination of dopamine (DA) and norepinephrine (NE) in Portulaca oleracea L. The recoveries of DA and NE were 93.3 and 94.2%, respectively.     

A solid-phase microextraction fiber coated with diglycidyloxycalix[4]arene yields very high extraction selectivity and sensitivity during the analysis of chlorobenzenes in soil

A novel fiber coated with novel sol-gel (5,11,17,23-tetra-tert-butyl-25,27-dihydroxy-26,28-diglycidyloxycalix[4]arene/hydroxy-terminated silicone oil; diglycidyloxy-C[4]/OH-TSO) was prepared for use with headspace solid-phase microextraction (HS-SPME) combined with gas chromatography (GC) and electron capture detection (ECD), which was applied in order to determine nine chlorobenzenes in soil matrices. Due to the improved fiber preparation, which increases the percentage of calixarene in the coating, the new calixarene fiber exhibits very high extraction selectivity and sensitivity to chlorine-substituted compounds. Various parameters affecting the extraction efficiency were optimized in order to maximize the sensitivity during the chlorobenzene analysis. Interferences from different soil matrices with different characteristics were investigated, and the amount extracted was strongly influenced by the matrix. Therefore, a standard addition protocol was performed on the real soil samples. The linear ranges of detection for the chlorobenzenes tested covered three orders of magnitude, and correlation coefficients >0.9976 and relative standard deviations (RSD) <8% were observed. The detection limits were found at sub-ng/g of soil levels, which were about an order of magnitude lower than those given by the commercial poly(dimethylsiloxane) (PDMS) coating for most of the compounds. The recoveries ranged from 64 to 109.6% for each analyte in the real kaleyard soil matrix when different concentration levels were determined over the linear range, which confirmed the reliability and feasibility of the HS-SPME/GC-ECD approach using the fiber coated with diglycidyloxy-C[4]/OH-TSO for the ultratrace analysis of chlorobenzenes in complex matrices.      

两种新型杯（4）芳烃衍生物用作毛细管气相色谱固定相的研究

合成了两种新型的杯（４）芳烃衍生物：５－１′，１′－二甲基十一烯氧基苯基甲基－１１，１７，２３－三－１，１－二甲基乙基－２５，２６，２７，２８－四苄氧基杯（４）芳烃Ｃ（４）ＴＢ）及５－１′，１′－二甲基十一烯氧基苯基甲基－１１，１７，２３－三－１′，１′－二甲基－２５，２６，２７，２８－四乙氧羰甲氧基（Ｃ（４）ＴＥＣＭ）其结构经元素分析ＩＲ，＾１ＨＮＭＲ，ＭＳ的数据证实，分别将其与ＯＶ－１７０１固     

The synthesis of a new cyclodextrin-crown ether chiral stationary phase and application in gas chromatography

A new compound of mono-6-(1′-benzo-aza-15-crown-5)-2, 3, 6-permethyl-β-cyclodextrin (BA-15C5-PM-CD) was synthesized. The structure was determined to be coincide with our anticipation by spectroscopy. As a stationary phase for capillary gas chromatography, excellent separation for enantioners and positional isomers was achieved. Supported by the National Natural Science Foundation of China(No. 29475201) Liu Min: born in 1974, Graduate student     

Development of a Sol-Gel Procedure for Preparation of a Diglycidyloxycalix[4]arene Solid-Phase Microextraction Fiber with Enhanced Extraction Efficiency

5,11,17,23-Tetra-tert-butyl-25,27-dihydroxy-26,28-diglycidyloxycalix[4]arene (diglycidyloxy-C[4]) has been synthesized and used for preparation of a sol-gel solid-phase microextraction fiber with enhanced extraction efficiency. The sol-gel procedure was developed using a sol solution containing diglycidyloxy-C[4] as organic component and both tetraethoxysilane and 3-aminopropyltriethoxysilane (KH-550) as precursors. No additional catalysts were used and no centrifugation was performed. Diglycidyloxy-C[4] was highly chemically reactive toward KH-550 even at room temperature, which increased the calixarene content of the coating, simplified the sol-gel procedure, reduced the sol-gel reaction time, enhanced the polarity of the coating, and improved extraction performance. The sol-gel mixture also had very good coating properties and was highly uniformly distributed on the surface of the fiber; because of these characteristics several fibers could be prepared from one sol-gel solution. Efficient extraction of trace analytes (µg L^?1 levels) from aqueous samples was accomplished using this kind of new fiber. Very low detection limits (ng L^?1 level) were achieved for most polar (aromatic amines and phenols) and nonpolar (polycyclic aromatic hydrocarbons) aromatic compounds by SPME followed by gas chromatography with flame ionization detection. The new coating had excellent solvent and thermal (350 °C) stability. Lifespan was also good—a fiber could be used more than 300 times in headspace SPME without substantial changes in the properties of the coating.     

Characteristics of sandwich-structured Al2O3/HfO2/Al2O3 gate dielectric films on ultra-thin silicon-on-insulator substrates

Sandwich-structure Al₂O₃/HfO₂/Al₂O₃ gate dielectric films were grown on ultra-thin silicon-on-insulator (SOI) substrates by vacuum electron beam evaporation (EB-PVD) method. AFM and TEM observations showed that the films remained amorphous even after post-annealing treatment at 950 °C with smooth surface and clean silicon interface. EDX- and XPS-analysis results revealed no silicate or silicide at the silicon interface. The equivalent oxide thickness was 3 nm and the dielectric constant was around 7.2, as determined by electrical measurements. A fixed charge density of 3 × 10¹⁰ cm⁻² and a leakage current of 5 × 10⁻⁷A/cm² at 2 V gate bias were achieved for Au/gate stack /Si/SiO₂/Si/Au MIS capacitors. Post-annealing treatment was found to effectively reduce trap density, but increase in annealing temperature did not made any significant difference in the electrical performance.     

Redox reaction induced Ostwald ripening for size- and shape-focusing of palladium nanocrystals

We report here that size- and shape-focusing can be achieved through the well-known Ostwald ripening process to produce high-quality metal nanocrystals (NCs). Using Pd as an example, we show that the addition of small NCs of appropriate sizes could help in modulating the growth of larger NCs and enable excellent control over both the size and shape uniformity of the products. A detailed mechanistic study showed that the self-focusing of Pd NCs relied on a dissolution and regrowth process induced by redox reaction of HCHO. With the assistance of HCHO, injection of small sacrificial nanocrystals (SNCs), with sizes below a critical value, into larger seeds results in the dissolution of the SNCs and subsequent deposition onto the larger ones, thus allowing the formation of monodisperse Pd NCs. We have identified the critical radius of the SNCs to be ∼5.7 nm for Pd, and verified that SNCs with sizes larger than that could not effectively support the growth of larger seeds. More interestingly, since Ostwald ripening involves matter relocation, this synthetic approach could even break the self-termination growth habits of metal NCs and produce nanocrystals with sizes that are not conveniently accessible by direct growth.     

Recent advances in heterostructured cathodic electrocatalysts for non-aqueous Li–O2 batteries

Developing efficient energy storage and conversion applications is vital to address fossil energy depletion and global warming. Li–O₂ batteries are one of the most promising devices because of their ultra-high energy density. To overcome their practical difficulties including low specific capacities, high overpotentials, limited rate capability and poor cycle stability, an intensive search for highly efficient electrocatalysts has been performed. Recently, it has been reported that heterostructured catalysts exhibit significantly enhanced activities toward the oxygen reduction reaction and oxygen evolution reaction, and their excellent performance is not only related to the catalyst materials themselves but also the special hetero-interfaces. Herein, an overview focused on the electrocatalytic functions of heterostructured catalysts for non-aqueous Li–O₂ batteries is presented by summarizing recent research progress. Reduction mechanisms of Li–O₂ batteries are first introduced, followed by a detailed discussion on the typical performance enhancement mechanisms of the heterostructured catalysts with different phases and heterointerfaces, and the various heterostructured catalysts applied in Li–O₂ batteries are also intensively discussed. Finally, the existing problems and development perspectives on the heterostructure applications are presented.

The structure–function relationships between heterostructures and their catalytic properties were discussed in detail, and the challenges and improvement strategies for heterostructure based cathodes towards Li–O₂ catalysis were also summarized.