标准加入法测定锆铀合金中微量铪

应用标准加入ICP-AES测定锆铀合金中微量铪.当试样中锆的浓度为8mg/mL时,铪的测定范围是50-400μg/g,回收率为101%-106%,相对标准偏差(RSD,n=6)为3.7%-5.8%.     

Quantitative Analysis of Chemical and Phase Composition of Zn−Ni Alloy Coating by Potentiodynamic Stripping

We propose quantitative analysis of chemical and phase composition of Zn−Ni alloy depending on the film thickness, using potentiodynamic stripping in an alkaline ammonia-glycinate electrolyte. The mechanism of dissolution of zinc-enriched Zn−Ni alloy films in this electrolyte comprises sequential stages of dissolution of zinc-phase and zinc from a γ-phase of various structures, followed by dissolution of the nickel-enriched residue, formed by dezincification, and matrix nickel.     

硅烷类外给电子体对丙烯-丁烯序贯聚合的调控作用

外给电子体(ED)作为负载型Ziegler-Natta催化剂的一个重要组分, 在影响α-烯烃的催化活性及聚合物的立构规整性方面发挥着重要作用. 本文研究了4种不同结构及电子密度的硅烷类外给电子体[二甲基二甲氧基硅烷(D1)、 二丁基二甲氧基硅烷(D2)、 二苯基二甲氧基硅烷(D3)及二环戊基二甲氧基硅烷(D4)]对丙烯均聚及丙烯(一段)-丁烯(二段)序贯聚合的影响. 结果表明, ED对烯烃聚合的催化活性、 活性中心数及活性中心定向能力都具有显著的影响. 密度泛函理论(DFT)模拟计算表明, 随着ED的空间位阻和电子密度增加, ED在MgCl₂表面的吸附能降低, 吸附稳定性降低; ED的空间位阻和电子密度增加有利于提高丙烯聚合活性中心的定向能力, 当n(D4)/n(Ti)=20时, 合成的聚丙烯(PP)中的等规聚丙烯(iPP)组分含量达到92.8%. 当n(ED)/n(Ti)=15时, 丙烯聚合的聚合速率常数达到最大值; 具有更大空间位阻和电子密度的ED使得丙烯-丁烯序贯聚合的活性中心具有更强的定向能力, ED对丁烯(二段)聚合活性及聚丙烯/聚丁烯合金（PBA）中等规聚丁烯(iPB)组分的熔点影响更显著.     

Rb5Hg19: Eine neue,geordnete Defektvariante des BaAl4‐Strukturtyps

Rb₅Hg₁₉: A New Defect Variant of the BaAl₄ Structure Type The hitherto unknown, silver metallic, air sensitive Rb₅Hg₁₉ can be prepared directly from the elements. It crystallizes tetragonally with lattice constants a = 1156.1 pm, c = 1051.0 pm (Z = 2, space group I4/m, No. 87, melting temperature 467 K) in a new defect variant of the BaAl₄ structure type. The structure is based on distorted 4⁴ nets of Hg₄ rectangles and squares forming rectangular and square pyramids together with additional Hg atoms. The vertices of the pyramids point in alternate directions with respect to [001]. Opposite vertices show relatively short contacts d_Hg–Hg = 292.3 pm along [001]. The defect character of the Rb₅Hg₁₉ structure shows up by single Hg atoms substituting each fifth Hg–Hg group in an ordered way and serving as common vertices for two subsequent square pyramids along [001]. The replacement of Hg–Hg groups by single Hg atoms explains the vertical and horizontal distortions of the 4⁴ nets and explains the differences of the Rb coordination with respect to Ba (bicapped tetragonal hexagonprism) in the BaAl₄ type, in which a hypothetical RbHg₄ could eventually crystallize. The symmetry relations of Rb₅Hg₁₉ and α‐La₃Al₁₁ (the only defect variant of BaAl₄ except Rb₅Hg₁₉) to the aristo type BaAl₄ are discussed.     

银镍合金团簇Ag4Ni2(SPhMe2)8 (SPhMe2 = 2, 4-二甲基苯硫酚)的合成及其结构表征

具有精确结构的纳米团簇因其有利于分析团簇结构与性质之间的关系而被广为研究。之前的研究结果表明金属银和金属镍在亚纳米尺寸可以形成团簇(Ag₄Ni₂(DMSA)₄ (DMSA =二巯基丁二酸),但其晶体结构并没有得到具体表征。在本工作中,我们合成了硫醇配体保护的银镍合金纳米团簇：Ag₄Ni₂(SPhMe₂)₈ (SPhMe₂ = 2, 4-二甲基苯硫酚),并通过X射线单晶衍射、X射线光电子能谱、质谱和热失重等分析手段对结构进行了表征和确认。该工作拓展了合金团簇的基础研究。     

多策略可控合成原子精度合金纳米团簇

合金纳米团簇作为一类新兴的多功能纳米材料已被广泛用于催化、光学传感以及生物医学成像等研究领域,而纳米团簇的可控合成和结构特征是调节纳米团簇性质并对其进一步利用的基础。尽管当前有关金属纳米团簇可控合成和结构特征的研究主要集中在单金属纳米团簇中,但有关合金纳米团簇原子精度的可控合成也取得了显著的进展。本文综述了配体保护的合金金属纳米团簇原子精度可控合成策略,包括一步合成法、金属交换、配体交换、化学刻蚀、簇间反应、原位两相配体交换以及最新的表面模体交换反应,并对相关合成策略的优缺点进行了详细的讨论和阐述。     

One‐step Synthesis of AuAg Alloy Nanodots and its Electrochemical Studies towards Nitrobenzene Reduction and Sensing

Efficient, stable, and low‐cost electrocatalysts for the degradation and sensing of environment pollutants are essential components of clean environment monitoring. Here we report, one‐step synthesis and characterization of 1–3 nm diameter sized bi‐metallic AuAg nanodots (NDs) embedded in amine functionalized silicate sol‐gel matrix (SSG) and its electrochemical studies toward nitrobenzene. The SSG was used as a reducing agent as well as stabilizer for the prepared mono‐ and bi‐metallic nanoparticles (NPs). From the HRTEM, STEM‐EDS and XPS analyses, the bi‐metallic AuAg NDs were identified as an alloy and not the mixtures of Au and Ag NPs. Characteristic surface plasmon resonance (SPR) band between the Au and Ag NPs SPR absorption region was noticed for the prepared AuAg NDs. The AuAg alloy NDs with different concentrations of Au and Ag (Au₂₅Ag₇₅, Au₅₀Ag₅₀ and Au₇₅Ag₂₅ NDs) modified electrodes exhibited synergistic electrocatalytic effect than did the Au and Ag NPs towards nitrobenzene reduction and detection. Together with ultra‐small size and exceptional colloidal stability features within these SSG‐AuAg NDs pave convenient way for nanotechnology‐based catalysts development and sensor applications.     

通过调控晶体结构提高氧气还原反应电催化活性:MPt金属间相纳米晶（英文）

燃料电池的正极主要发生氧还原反应(ORR),但是该反应的动力学速率较慢,需要催化剂来降低反应的过电势.目前商用的催化剂是碳载铂纳米粒子催化剂,但是铂高昂的价格严重阻碍了燃料电池的大规模商业化.近年来的理论和实验研究表明,过渡金属(M)与铂(Pt)形成的纳米晶合金(MPt)能够作为有效的ORR催化剂,同时由于引入价格低廉的过渡金属,催化剂成本有所降低.然而,即使合金化的催化剂具有良好的初始催化性能,但是在燃料电池的实际操作环境,即高电压、高温和酸性条件,长时间运行之后,过渡金属很容易被腐蚀流失,从而留下表面配位数较低的铂原子,而这些铂原子对ORR反应几乎没有催化作用,导致催化剂逐渐失活,燃料电池的输出功率逐渐降低.最近一些研究表明,铂基催化剂在一定条件下,例如加热,能够发生固态相变,形成结构有序的即金属间纳米晶(iNCs).与无序排列的合金相比,这种有序的MPt能够调控表面铂原子与含氧中间体的结合能,可以进一步提高ORR活性;同时,由于在金属间纳米晶中铂原子与过渡金属原子具有很强的相互作用,过渡金属在酸性溶液中也不容易被腐蚀,从而大大提高了催化剂的稳定性.本综述以FePt,CoPt和PbPt为例,总结了它们的相变规律和条件,同时关注它们的合成-结构-性能的构效关系,突出金属间结构在提高活性和稳定性方面的优势.最后,为了进一步提高MPt金属间纳米晶的活性,我们提出一些可能的方向和观点,包括:(1)在实现无序-相变的同时实现形貌调控来提高催化剂活性;(2)关注尺寸效应,尽可能减小MPt金属间纳米晶的尺寸,提高铂的利用率,从而提高催化剂活性;(3)关注材料的有序程度,尽可能提高材料的有序度,充分发挥金属间纳米晶对于氧还原反应的优势     

NiP非晶态合金的负载方法及催化剂的结构与催化性能

采用ＮｉＢ作为引导剂,使ＮｉＰ完全定向沉积到载体上,用ＩＣＰ,ＸＲＤ,ＤＳＣ,ＢＥＴ,ＴＥＭ对制备的负载型ＮｉＰ（Ｂ）催化剂进行表征,研究了这类催化剂对乙烯中微量乙炔的选择加氢性能,结果表明,ＮｉＰ（Ｂ）以超细颗粒分散到载体上,由于少量Ｂ的存在,使其比相应的ＮｉＰ或ＮｉＢ具有更高的热稳定性。非晶态ＮｉＰ（Ｂ）合金催化剂具有比相应的晶态合金更好的催化性能。低温氢气处理可以除去表面镍的氧化物,从而提高