Status of the standard solar model prediction of solar neutrino fluxes

The Standard Solar Model (BP04) predicts a total ⁸B neutrino flux that is 17.2% larger than that measured in the salt phase of the SNO detector (and if it is significant, it will indicate oscillation to sterile neutrinos). Hence, it is important to examine in detail the uncertainties (and values) of inputs to the BP04. Currently, the largest fractional uncertainty is due to the new evaluation of the surface composition of the Sun. We examine the nuclear input on the formation of solar ⁸B [S ₁₇(0)] and demonstrate that it is still quite uncertain due to the ill-known slope of the measured astrophysical cross section factor and thus illdefined extrapolation to zero energy. This yields an additional reasonable uncertainty due to extrapolation of _−3.0 ^+0.0 eV b ( _−14% ^+0% ). Since a large discrepancy exists between measured as well as predicted slopes, the value of S ₁₇(0) is dependent on the choice of data and theory used to extrapolate S ₁₇(0). This situation must be alleviated by new measurement(s). The “world average” is driven by the Seattle result owing to the very small quoted uncertainty, which we, however, demonstrate to be an overestimated accuracy. We propose more realistic error bars for the Seattle results based on the published Seattle data. The text was submitted by the author in English.     

Preparation of new mixed ligand complexes of lanthanide acetylacetonate with dibenzo-18-crown-6 and their IR spectra

Fourteen new mixed ligand complexes of lanthanide acetylacetonate and dibenzo-18- crown-6 (DB18C6) were prepared by three different methods. The composition of the complexes was shown to be Ln(acac)· DB18C6 by elemental analysis and X-ray powder diffraction. Infrared spectra of the complexes were investigated, and the results indicate that their absorption bands in the region of 400—4000 cm^?1 are complicated and without much difference from each other, but in the far infrared region various absorption bands of Ln—O can be observed and they changes regularly with the atomic number of lanthanides.     

DIRICHLET BOUNDARY VALUE PROBLEMS FOR SECOND-ORDER QUASI-LINEAR DIFFERENTIAL EQUATIONS WITH CHANGING SIGN NONLINEARITIES

This paper is concerned with the existence of positive solutions of two-point Dirichlet singular and nonsingular boundary problems for second-order quasi-linear differential equations with changing sign nonlinearities.     

放热型金属合金化对钒基贮氢材料性能影响的理论研究

利用电荷自洽离散变分Xα(SCC-DV-Xα)方法计算了放热型金属合金化对钒基贮氢材料性能的影响。研究结果表明:在钒氢化物V₆₃H₆₄中加入放热型金属后，钒原子的净电荷都减少，而氢原子的净电荷既有增加又有减少，加入Ti、Ca以后，H原子的净电荷减少，而加入Mg、Zr以后，H原子的净电荷增加。研究还表明放热型金属合金化以后，V4s轨道电子态密度峰发生分裂，与H1s和H2s轨道电子态密度重叠程度增大，V-H之间相互作用增强;差分电荷密度还表明M-H之间也有较强的相互作用。Mg合金化导致氢化物V₅₁M₁₂H₆₄的费米能增加，氢化物稳定性减弱;Ca、Ti、Zr合金化导致氢化物V₅₁M₁₂H₆₄的费米能减少，氢化物更稳定。     

1β—Methyl Carbapenem中间体的合成

综述了１β－Ｍｅｔｈｙｌ Ｃａｒｂａｐｅｎｅｍ中间体的合成方法，重点强调了如何构筑１位β构型的甲基。参考文献３７篇。     

渗透蒸发脱盐的研究

将选择性透过膜和汽化相结合的分离过程是当前的研究热点,其中采用低热导率、疏水性多孔膜的过程称膜蒸馏,而采用非多孔性半透膜的过程则称渗透蒸发。将该分离过程用于盐水脱盐已有很多报道,并已建成中试设备,但采用的大多是膜蒸馏,所用膜的成本很高。本文研究制了一种价廉并带有致密层的非对称性含钠离子聚乙烯醇(PVA)-聚乙二醇(PEG)分离膜,并用该膜对渗透蒸发脱盐进行了初步研究。 1 实验 1.1 膜制备 将一定配比的PVA与PEG及钠盐水溶液在适当温度下混溶,加入适量醛类交联剂,数分钟后在选定的基材上流涎成膜,室温下自然晾干,再经35℃～50℃控温红外线干燥。 1.2 膜结构及脱盐流程 扫描电镜拍摄的膜断面形貌图像(图1)表明,该膜为非对称膜,表层厚约13μm,其中厚约2～3/μm的上表层为疏松结构,下表层为致密结构。将该类膜用于3.5％NaCl水溶液脱盐,运行4h后再漂洗、干燥作断面Na元素波谱线分析(图2)发现,在膜下层(右侧)厚约30μm层内检测不到Na元素。脱盐流程见文献。     

聚对苯二甲酸乙二酯微流控芯片的制备和表面改性

高聚物微流控芯片具有制备简单、成本低、可批量生产等突出优点而有望成为一次性器件,近年来在国内外引起了同行们的兴趣.但是,高聚物表面的憎水性、对有机分子的强吸附性、电渗流的不稳定性等又成为高聚物芯片在微流控分析领域得以广泛应用的障碍.表面改性是改善高聚物芯片分析特性的有效途径.