月桂酸毛细管胶束电动色谱-质谱测定农田水中的三嗪类农药

基于月桂酸可以直接进入电喷雾电离源,且对三嗪类农药在电喷雾电离源的电离强度没有明显的影响,建立了以月桂酸为表面活性剂的毛细管胶束电动色谱-电喷雾质谱联用(MEKC-ESIMS)同时测定8种三嗪类农药的新方法。在以40 mmol/L月桂酸和140 mmol/L氨水作为缓冲溶液、70%的异丙醇(含3.0mmol/L的醋酸铵)作为鞘液的条件下,各组分分离良好;结合固相萃取(SPE)技术对农田水样进行测定,各组分检出限为0.040~0.10μg/L;回收率在87.2%~97.3%之间。     

JACOBI SPECTRAL METHODS FOR MULTIPLE- DIMENSIONAL SINGULAR DIFFERENTIAL EQUATIONS

Jacobi polynomial approximations in multiple dimensions are investigated. They are applied to numerical solutions of singular differential equations. The convergence analysis and numerical results show their advantages.     

铁掺杂的聚2-硝基-1,4-苯二胺纳米球的制备及在光热/光动力/化学动力学肿瘤治疗中的应用

肿瘤微环境(TME)的复杂性,使得单一治疗方式很难实现完全治愈。 为此,构建了一种负载吲哚菁绿(ICG)的铁掺杂的聚2-硝基-1,4-苯二胺多功能纳米球Fe-PNPD-ICG(FPIs),用于光热(PTT)/光动力(PDT)/化学动力学(CDT)的联合治疗。 在808 nm激光器照射下,ICG作为光敏剂可以产生单线态氧,铁掺杂的聚2-硝基-1,4-苯二胺纳米球作为光热剂具有36.65%的光热转换效率。 FPIs一旦内化到肿瘤内,由Fe³⁺/Fe²⁺转化引发Fenton反应产生·OH实现化学动力学治疗,反应过程中可以清除TME中过表达的谷胱甘肽(GSH),从而降低肿瘤中的抗氧化能力。 同时,产生的氧气可以改善TME中乏氧情况,增强PDT的治疗效果。 因此,FPIs是PTT/PDT/CDT联合治疗的一种理想材料,在肿瘤治疗中具有潜在的应用前景。     

Superconductivity,Pair Density Wave,and Neel Order in Cuprates

We investigate in underdoped cuprates possible coexistence of the superconducting order at zero momentum and pair density wave(PDW)at momentum Q=(Л,Л)in the presence of a Neel order.By symmetry,the d-wave uniform singlet pairing dS0 can coexist with the d-wave triplet PDW dTq,and the p-wave singlet PDW pSq can coexist with the p-wave uniform triplet pT0.At half filling,we find that the novel pSq+pT0 state is energetically more favorable than the dS0+dTQ state.At finite doping,however,the dS0+dTq state is more favorable.In both types of states,the variational triplet parameters cITq and pT0 are of secondary significance.Our results point to a fully symmetric Z2 quantum spin liquid with spinon Fermi surface in proximity to the Neel order at zero doping,which may not be adiabatically connected to the d-wave singlet superconductivity at finite doping with intertwining d-wave triplet PDW fluctuations and spin moment fluctuations.The results are obtained by variational quantum Monte Carlo simulations.     

Iron silicide root formation in carbon nanotubes grown by microwave PECVD

Aligned carbon nanotubes have been grown using microwave plasma enhanced chemical vapor deposition (PECVD). The carbon nanotubes are nucleated from iron catalyst particles which, during growth, remain adherent to the silicon substrates. By analysis with high-resolution electron microscopy, we observe iron silicide roots penetrating into the silicon substrate at the interface of the catalyst particles and the substrate, thus providing strong adhesion of the carbon nanotubes onto the substrate. The iron silicide roots assist in the attachment of the catalyst particles to the substrate and play a role in the evolution of the catalyst particle morphology and resulting base growth mode. Carbon nanotubes grown by microwave PECVD could exhibit superior electrical and thermal transport properties over other PECVD processes, so an understanding of the growth mechanism is important for utilization in device applications.     

Control of carbon capping for regrowth of aligned carbon nanotubes

The regrowth of carbon nanotubes (CNTs) in a second growth stage after a first growth stage has been completely stopped has been found to be strongly related to the carbon capping present on their catalyst particles. It is shown that the undesirable carbon capping can be prevented from forming or removed and the nanotube growth can be rejuvenated by either control of plasma processing conditions during chemical vapor deposition or by inserting a room-temperature sputter etching process. The ability to cause sequential growth stages to take place in different directions makes it possible for us to clearly compare the occurrence and extent of CNT regrowth. Such a CNT regrowth process and understanding of controlling parameters can enable the creation of new nanowire configurations that could potentially be used for applications such as sharply bending nanointerconnections, nanosprings, bent AFM nanoprobes, or nanobarcodes.     

高效液相色谱法测定克鲁维酵母菊芋发酵液中的乙醇,糖和有机酸类代谢成分

建立了高效液相色谱法同时分析菊芋发酵液中的乙醇和有机酸的方法.采用HPLC有机酸分析柱, 流动相为0.01 mol/L H2SO4,流速为0.5 mL/min, 以紫外和示差折光检测器作为双通道检测手段,同时对克鲁维酵母菊芋发酵液中的柠檬酸、α-酮戊二酸、葡萄糖、丙酮酸、果糖、琥珀酸、乳酸、甘油、乙酸、乙醇进行了定量分析,本方法的回收率为95.8%～109.6%;RSD为0.33%～4.0%,结果表明,本方法简单、快速、准确,适用于监控克鲁维酵母发酵产物并指导整个发酵过程条件的优化.