Determination of ranolazine in human plasma by liquid chromatographic-tandem mass spectrometric assay

A highly sensitive liquid chromatographic-tandem mass spectrometric method (LC-MS-MS) is developed to quantitate ranolazine in human plasma. The analyte and internal standard tramadol are extracted from plasma by liquid-liquid extraction using diethyl ether-dichloromethane (60:40 v/v), and separated on a Zorbax extend C(18) column using methanol-10mM ammonium acetate (60:40 v/v, pH 4.0) at a flow of 1.0 mL/min. Detection is carried out by multiple reaction monitoring on a QtrapTM LC-MS-MS system with an electrospray ionization interface. The assay is linear over the range 10-5000 ng/mL with a limit of quantitation of 10 ng/mL and a lower limit of detection (S/N > 3) of 1 ng/mL. Intra- and inter-day precision are < 3.1% and < 2.8%, respectively, and the accuracy is in the range 96.7-101.6%. The validated method is successfully used to analyze the drug in samples of human plasma for pharmacokinetic studies.     

Reactive Polymer as Artificial Solid Electrolyte Interface for Stable Lithium Metal Batteries

Lithium (Li) metal anodes have the highest theoretical capacity and lowest electrochemical potential making them ideal for Li metal batteries (LMBs). However, Li dendrite formation on the anode impedes the proper discharge capacity and practical cycle life of LMBs, particularly in carbonate electrolytes. Herein, we developed a reactive alternative polymer named P(St-MaI) containing carboxylic acid and cyclic ether moieties which would in situ form artificial polymeric solid electrolyte interface (SEI) with Li. This SEI can accommodate volume changes and maintain good interfacial contact. The presence of carboxylic acid and cyclic ether pendant groups greatly contribute to the induction of uniform Li ion deposition. In addition, the presence of benzyl rings makes the polymer have a certain mechanical strength and plays a key role in inhibiting the growth of Li dendrites. As a result, the symmetric Li||Li cell with P(St-MaI)@Li layer can stably cycle for over 900 h under 1 mA cm⁻² without polarization voltage increasing, while their Li||LiFePO₄ full batteries maintain high capacity retention of 96 % after 930 cycles at 1C in carbonate electrolytes. The innovative strategy of artificial SEI is broadly applicable in designing new materials to inhibit Li dendrite growth on Li metal anodes.     

All the disorder mechanisms in the 13:58 phases come together. Out of the modulated confusion rises the remarkable phase Ce12.60Cd58.68(2)

The compound Ce12.60Cd58.68(2) is a metrically commensurate representative of the incommensurately modulated phase Ce13Cd57+delta. It is most likely a lock-in phase. The structure, which was solved using seeding of the modulation from those positions most affected as well as direct solution by charge flipping, represents a rare case of ordering in a family of structures where disorder is the rule. The disorder mechanisms, known from other RE13Zn/Cd58 phases, order in this phase to give rise to a remarkable interplay between interstitials and vacancies. The compound crystallizes in the super space group Ccmm(alpha00)00s (standard setting Amma(00gamma)s00) with cell parameters a=27.2789(14) A, b=15.7592(1) A, and c=15.5816(4) A and a q vector close to 2/3.     

含氮前驱体对氮杂有序介孔炭材料及其氧还原电催化性能的影响

燃料电池中贵金属铂的大量使用是阻碍其发展的关键因素,亟需探索高效廉价的替代型电催化剂.在目前的替代型非贵金属催化剂研究中,氮杂炭材料是一类氧还原反应催化活性最好、成本最低廉的催化剂,被认为是最有可能取代Pt催化剂而获得实际应用的催化剂.氮杂有序介孔炭材料因具有极高的比表面积和规整的孔道结构,可实现活性位点的密集组装与反应物料的快速传输,受到研究者的广泛关注.本文分别以苯胺、吡咯和邻菲罗啉为含氮前驱体,介孔分子筛SBA-15为硬模板,采用纳米浇铸法成功制备了具有高比表面积的氮杂有序介孔炭材料,系统研究了不同含氮前驱体对氮杂有序介孔炭材料的影响.采用氮气吸附-脱附等温线、透射电子显微镜(TEM)、X射线衍射(XRD)和X射线光电子能谱(XPS)等方法研究了氮杂有序介孔炭的组成与结构,采用循环伏安法(CV)以及线性扫描伏安法(LSV)等手段考察了其电化学行为与氧还原反应极化性能.氮气吸附-脱附等温线结果表明,采用三种不同含氮前驱体制备的氮杂炭材料都对应Ⅳ型吸脱附等温线以及H4型滞后环,表明所制备的氮杂炭材料具有介孔结构.由TEM可以清楚地观察到氮杂炭材料已经成功地反转了SBA-15模板的孔道结构.同时发现,含氮前驱体对氮杂炭材料的比表面积和孔结构产生较大影响:以吡咯和邻菲罗啉为前驱体制备的炭材料C-PY-900和C-Phen-900的比表面积较高,分别为765和746 m2/g,而以苯胺为前驱体制备的炭材料C-PA-900比表面积较小(569 m2/g);三种炭材料平均孔径大小顺序为C-Phen-900 (3.7 nm)＜ C-PY-900 (5.0 nm)＜ C-PA-900 (5.9 nm),这是由于不同含氮前驱体在高温焙烧过程中热分解行为不同所致.XRD结果发现,含氮前驱体对氮杂炭材料的晶型基本没有影响,均为无定形碳.XPS结果表明,采用苯胺、吡咯以及林菲啰啉为前驱体制备的氮杂炭材料中氮含量基本相同,分别为3.13 at％,3.32 at％和3.33 at％,说明在相同热解条件下材料中的氮含量基本不受前驱体的影响,但不同配位环境的氮含量以及氮活化碳原子的含量却有较大差异,其氮活化碳原子的相对含量分别为15.60％,19.87％和23.04％.电化学测试结果表明,三种氮杂介孔炭材料的氧还原反应电催化活性顺序为C-PA-900＜C-PY-900＜C-Phen-900,其H2O2产率低于30％,说明氧还原反应经历4电子转移路径.在碱性条件下,所制氮杂有序介孔炭材料C-PY-900和C-Phen-900表现出较商品Pt/C催化剂更加优异的氧还原反应电催化性能.综上可见,通过改变含氮前驱体的类型可以有效调变氮杂炭材料的比表面积、孔道结构以及N 1s与C 1s化学态,从而调控氧还原反应活性,本文不仅制备出高活性的非贵金属氧还原电催化剂,同时也为高活性炭基电催化剂的可控制备提供了思路.     

Gels from mixed ligand silver(I) carboxylates: a promising approach for gel formation utilizing surface modifications

Mixtures of Ag(hexanoate) and Ag(palmitate) give thermoreversible gels at very low concentration in toluene. The framework of the gel is composed of the branched nanosized fibers, contrary to the microsized wire precipitates of silver(I) carboxylates. The randomness of mixed-ligand silver(I) carboxylate polymeric chains hinders the crystallization process, resulting in very thin fibrils. This may be a new approach to design and control the properties of materials, which do not have properties involving gels or nanostructures in a conventional process.     

定标粒子理论的气相色谱保留值方程

以定标粒子理论为基础,通过对溶质、溶剂分子间的相互作用加以系统研究,得到了描述溶质、溶剂分子参量及色谱条件对气相色谱过程中溶质容量因子的影响规律。通过实验证实了溶质容量因子在一定范围内与柱压近似呈线性关系,并验证了容量因子与柱温及加和性物性参量的关系。     

High energy heavy ion tracks in bubble detectors

Bubble detectors which are commonly used as neutron detectors have been demonstrated through this study to be good detectors for registration of high energy heavy ion tracks. Large size bubble detectors made in China Institute of Atomic Energy were irradiated to heavy ions Ar and C up to 650 MeV/u and 400 MeV/u, respectively. Very clear features of stringy tracks of high energy heavy ions and their fragmentations are manifested and distinguishable. A single track created by a specific high energy heavy ion is composed of a line of bubbles, which is visible by naked eyes and retained for months wihhout reduction in size. The creation of heavy ion tracks in bubble detectors is governed by a threshold whose essence is approximately a critical value of energy loss rate (dE/dX)_c similar to that of etch track detectors. Ranges of heavy ions in bubble detectors are apparent and predictable by existing formulas. Identification of high energy heavy ions and the applications to heavy ion physics, cosmic rays, exotic particles and cancer therapy monitoring are obviously promising. The experimental and theoretical aspects of high energy heavy ion tracks in bubble detectors as well as the expectable applications are presented and discussed.