有机相直接进样ICP-OES快速测定车用汽油中微量硅（英文）

车用汽油样品用异辛烷溶剂适当比例稀释,直接进入电感耦合等离子体光谱仪(ICP-OES)测定硅元素。考察了稀释溶剂及稀释比例、标准物质类型、样品冷却温度、汽油样品组成等因素对硅含量测定的影响。结果表明,汽油样品用异辛烷按1∶1的比例混溶,在雾化室冷却温度为-10℃时,直接进入ICP-OES测定硅含量效果最佳。在优化的工作条件下,该方法在0.1~10.0 mg·kg~(-1)硅含量范围内线性良好,线性相关系数达0.999 96,检出限为0.012 mg·kg~(-1),回收率在95.8%~98.4%之间,相对标准偏差小于3.0%。该法简便、快速、准确度高,适用于车用无铅汽油、车用乙醇汽油和低比例甲醇汽油中微量硅的快速检测。     

Design analysis for optimal calibration of diffusivity in reactive multilayers

Calibration of the uncertain Arrhenius diffusion parameters for quantifying mixing rates in Zr–Al nanolaminate foils have been previously performed in a Bayesian setting [M. Vohra, J. Winokur, K.R. Overdeep, P. Marcello, T.P. Weihs, and O.M. Knio, Development of a reduced model of formation reactions in Zr–Al nanolaminates, J. Appl. Phys. 116(23) (2014): Article No. 233501]. The parameters were inferred in a low-temperature, homogeneous ignition regime, and a high-temperature self-propagating reaction regime. In this work, we extend the analysis to determine optimal experimental designs that would provide the best data for inference. We employ a rigorous framework that quantifies the expected information gain in an experiment, and find the optimal design conditions using Monte Carlo techniques, sparse quadrature, and polynomial chaos surrogates. For the low-temperature regime, we find the optimal foil heating rate and pulse duration, and confirm through simulation that the optimal design indeed leads to sharp posterior distributions of the diffusion parameters. For the high-temperature regime, we demonstrate the potential for increasing the expected information gain concerning the posteriors by increasing the sample size and reducing the uncertainty in measurements. Moreover, posterior marginals are also obtained to verify favourable experimental scenarios.     

Ferric Phosphate Hydroxide Microcrystals for Highly Efficient Visible‐Light‐Driven Photocatalysts

Fe₄(OH)₃(PO₄)₃ microcrystals are successfully synthesized by a simple hydrothermal method. Due to a possible self‐etching mechanism, different morphologies of Fe₄(OH)₃(PO₄)₃ microcrystals are obtained. Several reactions with different temperatures and times are performed to confirm the supposed self‐etching mechanism. Moreover, as a result of their different micro/nanostructures, these microcrystals present different photocatalytic activities for visible‐light‐driven photodegragadation of methylene blue.     

灰建模在条件价值法数据处理中的应用

采用三江平原湿地调查问卷结果作为原始数据,探讨了灰建模方法在条件价值法数据处理中的应用.在对问卷数据进行聚类分析的基础上,采用传统的GM(1,1)模型,得到了合理有效的灰色模型,改进了条件价值法数据建模中仅将支付与抗议支付作为两个基本变量的模型,得出了多分类模型.     

TiO2纳米管阵列负载MnOx复合催化剂的脱硝性能

研究了TiO2纳米管阵列负载的MnOx复合物选择性催化还原NOx的性能.结果显示,在150～250℃下该催化剂脱除NOx的效率达90%以上(200℃下为99%以上),表现出优异的中低温脱硝性能.当反应温度更高时,有可能使反应进入努森扩散控制状态,从而在一定程度上抑制了催化反应的进行.     

Photovoltaic properties of graphene oxide sheets beaded with ZnO nanoparticles

A hybrid material of graphene oxide (GO) sheets beaded with ZnO nanoparticles was prepared. The material extends over a few hundred square nanometers, in which the ZnO nanoparticles (average diameter (∼5 nm)) are dispersed evenly on the GO sheet. Both the surface photovoltage or surface photocurrent intensity for the material are much stronger than for pure ZnO nanoparticles, meaning that the free charge carriers can effectively be transferred from ZnO nanoparticles to GO sheets, which can serve as a probe to monitor the electron transfer from excited ZnO to GO. Anchoring ZnO nanoparticles on two dimensional carbon nanostructures such as GO can pave a way towards the design of ordered nanostructure assemblies that can harvest light energy efficiently.