电热蒸发钨丝在线捕获原子荧光光谱法直接测定菠菜中痕量镉

利用钨丝(TC)常温下特异性捕获镉(Cd)消除基体干扰,泡沫碳材料电热蒸发器串联原子荧光光谱仪,实现了固体直接进样测定菠菜鲜样中痕量Cd。研究表明,泡沫碳电热蒸发器性能稳定,样品个体差异对测定无影响;经液氮冷冻粉碎的菠菜鲜样均匀度良好,Pauwels公式估算最小取样量为16.3 mg,满足仪器微量进样要求。采用灰化(50 W保持50 s,70 W保持80 s)、蒸发(70 W保持30 s)过程分离,Ar-H2(9∶1,V/V)载气流速为600 mL/min时,方法检出限可达0.2μg/kg,回收率为90.1%~106.1%,RSD小于10%,分析时间少于5 min,常见金属元素和有机物质对测定无干扰,且与微波消解石墨炉原子吸收光谱法结果无显著性差异(p>0.05)。     

La1.6Sr0.4NiO4-Ag中空纳米纤维的制备与电化学性质研究

采用静电纺丝法制备了La_1.6Sr_0.4NiO₄-Ag中空纳米纤维。利用XRD和SEM对材料物相及形貌进行分析。结果表明,800℃烧结2h形成平均直径为400nm的La_1.6Sr_0.4NiO₄-Ag复合空心纤维;850℃烧结1h,纤维交叉连接形成网格状结构,并与电解质紧密接触。EIS谱测试结果表明,La_1.6Sr_0.4NiO₄-Ag纳米纤维电极在700℃空气气氛的极化电阻为0.32Ω·cm²;氧分压测试结果显示,在600~700℃范围内,电极反应速率控制步骤均为电荷转移反应。     

Pleosporalesones A–B,two unique polyketides isolated from Pleosporales sp.

Two unique polyketides, pleosporalesones A–B (1–2), bearing an unusual 6/6/7/6 tetracyclic ring system consisting of a chromone ring and a benzoannulated cycloheptanone ring, were isolated from the solid cultures of Pleosporales sp.. The chemical structures were elucidated by analyses of their extensive spectroscopic data, including 1D/2D NMR, ORD, CD and HR-ESI-MS, and the absolute configurations were established by comparison of their experimental circular dichroism data with those calculated. A plausible biosynthetic pathway for pleosporalesones A–B was proposed.     

中温固体氧化物燃料电池复合阴极材料LaBiMn2O6-Sm0.2Ce0.8O1.9的制备与电化学性质

采用甘氨酸燃烧法合成了LaBiMn_2O_6粉体,并与Sm_(0.2)Ce_(0.8)O_(1.9)均匀混合制备了LaBiMn_2O_6-Sm_(0.2)Ce_(0.8)O_(1.9)(LBM-SDC)复合阴极材料。利用X射线衍射(XRD)和扫描电子显微镜(SEM)对材料的物相及微观形貌进行分析,结果表明LBM与SDC在1 000℃下有良好的化学稳定性。SDC的复合增加了氧离子传导路径,进而使氧还原反应(ORR)速度加快。电化学阻抗谱(EIS)测试结果表明,复合阴极极化电阻(Rp)随SDC复合量的增加呈现先降低后升高的趋势,当复合量为30%(w/w)时,阴极材料的性能最优。在700℃空气气氛下的极化电阻为0.186Ω·cm~2,相对LBM(0.717Ω·cm~2)减少74%。氧分压测试结果表明阴极反应的速率控制步骤为氧分子的吸附-解离过程。以复合阴极构筑的电解质支撑单电池Ni-SDC/SDC/LBM-30%SDC在700℃的最大输出功率密度为234 mW·cm~(-2),连续测试90 h输出功率衰减约4%。     

Pc-carbon:一种可能的超硬碳材料

基于密度泛函理论计算预测了一种新型碳同素异形体（Pc-carbon）.声子色散谱和弹性常数计算证实了Pc-carbon的动力学和力学稳定性.计算结果显示，Pc-carbon是弹性各向异性的，其维氏硬度达到87.6 GPa.应力应变计算结果表明，Pc-carbon的理想拉伸强度和剪切强度分别为65.8 GPa和56.5 GPa，进一步证实了其超硬特性.电子结构计算结果表明，Pc-carbon是带宽为0.99 eV的半导体.     

Octyl-functionalized hybrid silica monolithic column for reversed-phase capillary electrochromatography

Hybrid silica monolithic stationary phase functionalized with octyl groups was synthesized by a two-step acid/base-catalyzed hydrolysis/co-condensation of tetraethoxysilane (TEOS) and n-octyltriethoxysilane (C(8)-TEOS). The influences of determining factors in the sol-gel process such as the monomer ratio and water content on the monolith formation were systematically investigated. An increase in the TEOS/C(8)-TEOS ratio in the polymerization mixture shifted the pore size distribution towards smaller pore diameter with larger pore volume. The optimal TEOS/C(8)-TEOS volume ratio was found to be 90/50, under which condition the median pore diameter of the monolith was around 1.0 microm with pore volume of 3.25 cm(3)/g. The chromatographic characteristics of the monolithic column prepared with the optimized fabrication condition were studied. Some aromatic compounds including alkylbenzenes, polycyclic aromatic hydrocarbons (PAHs) and phenols were successfully separated on the octyl-functionalized silica monolithic column with high column efficiency up to 180,000 plates/m.     

超高稳定性的等级孔碳负载高分散铜基选择性加氢催化剂

负载型Pd,Pt,Au等贵金属催化剂由于具有较高活性而被广泛应用于选择性加氢催化领域,但资源稀缺、价格昂贵等问题严重制约了其在催化领域的长远发展.目前大量研究结果表明,非贵金属催化剂也具有较高的选择性催化加氢能力,在已被报道的非贵金属加氢催化剂中,铜基催化剂由于在选择性加氢反应中表现出较高加氢选择性和活性引起了人们的广泛关注.然而,早期研究的负载型铜基催化剂普遍存在催化稳定性较低的问题,所以提高铜基催化剂的使用寿命成为了问题关键.本文以铜基有机金属框架HKUST-1作为合成目标催化剂的前驱体,首先探究了水热合成条件对HKUST-1合成结构完整性及结晶度的影响,再通过精确调控HKUST-1的原位碳化过程,利用金属有机框架高温分解自还原行为,成功制备出了等级孔碳负载的高分散铜基催化剂,并将所制备的催化剂应用于1,3-丁二烯选择性加氢反应中.扫描电子显微镜、高分辨透射电子显微镜、X射线衍射、氮气吸脱附、傅里叶红外吸收光谱、X射线光电子能谱等技术用来表征了碳化前后催化剂载体结构的变化,铜粒子尺寸、价态及其在载体中分布的变化.文中也深入探究了以上因素对催化剂选择性催化加氢性能的影响.研究表明:120℃水热合成18 h能获得尺寸在15μm左右,结晶度高且形貌规整的HKUST-1前驱体.随后通过合理地控制金属有机框架分解过程,可实现对碳载体的等级孔结构和活性铜纳米粒子的分散程度的精确调控,获得高效等级孔载体结构和高分散铜位点的催化剂.不仅如此,通过一步碳化自还原HKUST-1制备的等级孔碳负载Cu的催化性能表现出对碳化温度高度的关联性.其催化活性随碳化处理温度的升高呈现先增强后减弱的趋势,但所有获得的催化剂对单烯烃都具有很高的选择性(>98%).特别地,本文发现在600℃碳化合成的催化剂在低温75℃反应可实现对1,3-丁二烯的100%转化,对丁烯的选择性为100%.同时,该催化剂在恒温75℃下持续反应120 h以上,其对丁二烯转化率和对丁烯选择性依然保持100%,表现出了超高的催化稳定性和潜在的商用价值.本文展示了通过简单地调控金属有机骨架的碳化过程是获得具有优异选择性催化加氢性能的铜基催化剂的有效途径.     

Mixed-Valence 24-Vanadophosphate Decorated with Six RuII(dmso)3 Groups: [{RuII3(dmso)9PVV11VIVRuIIIO37(OH)3}2]8?

The mixed-valence 24-vanadophosphate (1) has been synthesized and characterized in the solid state by IR, magnetism, EPR, XPS, and elemental analysis. Single-crystal X-ray analysis was carried out on (Na-1), which crystallizes in the triclinic system, space group , with a = 17.168(3) ?, b = 18.1971(14) ?, c = 20.1422(13) ?, α = 114.753(3)°, β = 99.390(4)°, γ = 95.124(4)°, and Z = 2. Polyanion 1 has an unusual, open structure composed of 2 Ru^IIIO₆ octahedra, 2 V^IVO₆ octahedra, 14 V^VO₅ square-pyramids, 8 V^VO₄ tetrahedra, and 2 PO₄ tetrahedra which are all directly linked via edges and corners. The outer surface of 1 is decorated with six Ru^II(dmso)₃ groups. XPS studies on Na-1 confirm the presence of 2 Ru^III and 6 Ru^II as well as 22 V^V and 2 V^IV centers. Magnetic susceptibility data on Na-1 show that the V^IV–Ru^III pairs are coupled antiferromagnetically, with J ₁ = −13 K and J ₂ ∼ −3 K. We did not detect any peak in our EPR measurements on Na-1, thus supporting the conclusion that Na-1 is diamagnetic in its ground state. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. In Memoriam Prof. F. A. Cotton     

Nafion~/TiO_2复合膜的质子传导性能研究

0引言Nafion○膜是质子交换膜燃料电池和直接甲醇燃料电池的首选电解质膜。该膜若要成功地应用于燃料电池,还需要解决2个关键问题:降低甲醇渗透率和提高Nafion○膜在高温的质子传导能力(即保水能力)。目前主要靠在Nafion○膜的球状胶束中加入亲水性的无机纳米粒子解决这个问题[1￣9]。无机粒子的加入不仅可以有效地阻隔甲醇分子,而且因其亲水性可增加Nafion○膜在较高温度下的保水能力,使得Nafion○膜在较高温度仍可保持良好的质子导电性。以TiO2作为无机掺杂剂改善Nafion○膜的性能研究已有报道。Watanabe和Uchida等人[2,8]利用Pt的催…     

酸化交联蒙脱土催化合成乙酸苄酯

酸化交联蒙脱土催化合成乙酸苄酯;酸化交联蒙脱土;催化;乙酸苄酯