ICP-AES法同时测定茶叶中的锌、铁、锰、铜、镍、镁

研究了用硝酸＋硫酸＋高氯酸消解样品，用ICP－AES法同时测定茶叶中锌，铁，锰，铜，镍，镁的新方法，在选定的最佳条件下，测锌，铁，锰，铜，镍，镁的检出限分别为4．2，7.8,0.4,7.3,7.6,4.8ng.mL^-1，回收率为94．7％－104．2％，RSD为0．3％－4．7％，该法准确，快速，简便，适用于茶叶样品的测定，结果令人满意。     

产生医用放射性核素核数据的测量、 理论计算与评价(续)

简要介绍产生治疗放射性核素 (利用反应堆、 加速器或衰变而产生的26个核素、 61种不同反应途径) 核数据的测量、 理论计算与评价的新进展。 这些核素是: 已广泛用于临床的32P， 89Sr， 90Y， 103Pd，125I，131I， 137Cs， 153Sm，186Re，188Re，192Ir和具有很大潜在使用可能性的64Cu，67Cu，67Ga， 86Y， 105Rh，111In，114mIn，124I， 125I(新)，149Pm， 166Ho，169Yb，177Lu，211At，213Bi，225Ac。 61种不同反应途径中有6种新的反应途径。 为提高核医学应用的安全性和有效性， 对现有核数据进行评价与适当能区的理论计算是十分必要的。 The nuclear data measurements and preliminary evaluation as well as theoretical calculation for established and emerging 26 radio nuclides produced in 61 ways by using reactor, accelerator or decay are briefly introduced. The measured data evaluation and theoretical calculation in some energy range are very important in order to keep the safety and validity in medical therapeutic applications. The 11 established radio nuclides are 32P， 89Sr， 90Y， 103Pd，125I，131I， 137Cs， 153Sm，186Re，188Re，192Ir and the 16 emerging radio nuclides are 64Cu，67Cu，67Ga， 86Y， 105Rh，111In，114mIn，124I， 125I(new)，149Pm， 166Ho，169Yb，177Lu，211At，213Bi，225Ac.     

中药方剂煎煮液中ICP—AES法同时测定16个元素

本文提出了用硝酸－过氧化氢对中药方剂煎煮液进行处理，ＩＣＰ－ＡＥＳ法对煎煮液中Ｌｉ，Ｎａ，Ｂｅ，Ｃａ，Ｓｒ，Ｂａ，Ｍｇ，Ｃｕ，Ｃｏ，Ｎｉ，Ｚｎ，Ｍｎ，Ｃｄ，Ｆｅ，Ｃｒ，Ｖ１６个元素进行同时测定的方法，该方法简单，快速，准确度高，所测元素的加标回收率均在８５～１０３％之间，样品分析结果满意。     

X射线荧光光谱法测定硅酸盐中硫等20个主、次、痕量元素

本文使用新研制的偏硼酸锂和四硼酸锂混合熔剂，在１０００℃熔融制样，以Ｘ射线荧光光谱法测定硅酸盐等样品中的Ｓ，Ｎａ，Ｍｇ，Ａｌ，Ｓｉ，Ｐ，Ｋ，Ｃａ，Ｔｉ，Ｍｎ，Ｆｅ，Ｂａ，Ｃｒ，Ｖ，Ｓｒ，Ｚｒ，Ｒｂ，Ｃｕ，Ｎｉ和Ｎｂ等２０种元素，采用理论α系数和康普顿散射线作内标校正元素间的吸收－增强效应。其分析结果的精密度和准确度可与化学法相比     

f0（975）和Ф（1020）介子对中子星物质的影响

利用相对论平均场理论，考虑了σ＊，Ф介子及重子八重态{N，P，A，∑^-，∑0,∑＋，Ξ^-，Ξ^0}，研究了中子星的性质．发现当考虑了σ＊，Ф介子的贡献时，超子出现的临界重子数密度降低了，超子数目增加了，超子星的转变密度poH降低了，物态方程变软，最大质量变小而相应的中子星半径增大，中子星的中心重子数密度、中心能量密度和中心压强均降低．     

元素在探针表面上的原子化机理研究

探针原子人经法是一种新技术，本文系统地总结了用探针原子化法研究Ａｕ（１Ｂ），Ｓｒ（ⅡＡ），Ｃｄ（ⅡＢ），Ａｌ（ⅢＡ），Ｌａ，Ｓｍ，Ｆｕ（ⅢＢ），Ｇｅ，Ｓｎ，Ｐｂ（ⅣＡ），Ｓｂ，Ｂｉ（ⅤＡ），Ｖ（ⅤＢ），Ｃｒ，Ｍｏ（ⅥＢ），Ｍｎ（ⅦＢ），Ｆｅ，Ｃｏ，Ｎｉ，Ｐｔ（Ⅷ）等２０个元素的原子化机理了起源于卤化物分解的元素有Ａｕ与Ｐｔ，起源于氧化物分解的元素有Ｃｄ，Ａｌ，Ｌａ，Ｓｍ，Ｅｕ，Ｇｅ，Ｍｎ与Ｆｅ。     

高指数稳定硅表面的低能电子衍射图分析

报道了在系统搜寻稳定硅表面的过程中对四个稳定高指数表面Si(1，1，11)，(1，0，8)，(2，1，2)和(15，1，17)的低能电子衍射(LEED)图进行的分析和结果.这些表面经充分退火后都能给出属于各自表面的LEED图，而不是小面化的，说明它们都是稳定的.从它们的LEED斑点强度分布特征不仅可以推断(15，1，17)是主稳定表面，而(1，1，11)，(1，0，8)和(2，1，2)则是副稳定表面，还能知道这些副稳定表面的原胞结构特征，甚至许多重要细节.从原胞结构特征来看，这些副稳定表面有可能用作生长周期量子线的模板.     

磷光光度法在药物分析中的应用

本文评述了固体基质室温磷光，流体介质室温磷光，低温磷光和室温磷光传感器在药物分析中的应用，涉及到的药物有生物碱，中草药有效成分，四环素类，喹喏酮类，维生素B2，抗癌药物，萘唑啉，萘普生和血管扩张剂潘生丁双嘧哌胺醇等，在药物分析中，固体基质室温磷光取样量只有微升级，操作快，成本低，流体室温磷光结合流动注射和化学传感技术，在药物的快速连续在线监测方面优势明显，而经过改善的低温磷体室温磷光结合流动注射和化学传感技术，在药物的快速连续在线监测方面优势明显，而经过改善的低温磷光方法，除了克服操作方面的某些弱点外，仍然保持高灵敏度的特点，随着敏化和猝死发光，能量转移，衍生发光和免疫发光等技术的发展，磷光方法在药物分析中的应用将会更加广泛。     

���˾۱���������������2007���27����Ŀ��

第1期HL-2A装置电子回旋共振加热波迹和功率沉积剖面的分析计算石秉仁，石迎天(1)HL-2A装置的ECRH实验和偏滤器特性洪文玉，严龙文，钱俊，赵开君，程均，罗萃文，徐征宇(7)EAST装置ICRF加热天线的电磁力分析杨庆喜，宋云涛，武松涛(12)惰性元素混合物平均不透明度研究姜明，周平，王彩霞(17)HL-2A装置边缘等离子体参数的径向分布测量程均，严龙文，洪文玉，钱俊，赵开君(22)EAST极向场电源失超保护系统的设计及模拟实验宋执权，傅鹏，汤伦军，吴义兵(28)2500kW双馈电机超同步调速装置研制李华俊，杜沧，宣伟民，彭建飞，胡浩天…     

非晶金刚石膜的性能及其应用

非品金刚石薄膜具有超高硬度等一系列优异的特殊性能，为工程界孜孜追求的材料表面镀膜。用百纳科技公司研发制造的过滤阴极真空电弧离子镀膜机镀制的非晶金刚石薄膜，SP^3金刚石结构量≥80％，硬度高，膜／基结合力高，摩擦系数小，耐磨损，耐腐蚀，透光率高，在电子，机械，光学，生物医学上有广泛应用前景。我们已在视窗玻璃，丝锥，模具，硬质合金刀头等产品上成功应用。     

近红外光谱技术在葡萄及其制品品质检测中的应用研究进展

葡萄具有丰富的营养价值、药用价值和经济价值,是世界上种植面积最大的水果之一。根据人们的消费需求及产品的贮运要求,葡萄被加工成葡萄干、葡萄汁、葡萄酒、葡萄籽油等常见葡萄制品。基于食品质量安全的关注以及高品质果蔬农产品的需求,如何快速有效地评价葡萄及其制品的质量已成为当务之急。随着无损检测技术及装备的快速发展,近红外光谱（NIR）技术因其快速、无损、精确、经济及便于在线分析的优点,也逐渐被应用在果蔬等农产品质量品质检测领域。近年来,国内外学者利用NIR技术在不损坏被检测葡萄及其制品的前提下,结合化学计量法、主成分聚类分析（PCA）、偏最小二乘判别分析（PLS-DA）、主成分回归（PCR）、偏最小二乘回归（PLSR）、支持向量机（SVM）及神经网络（NN）等数据处理方法探究了糖、酒精、酸等一般成分及色素、单宁、芳香物质等特有成分含量与有效光谱信息的关联性,以此建立了葡萄及其制品主要品质指标的定性鉴别与定量分析模型,为便携式近红外葡萄品质检测设备的研制和在线葡萄汁、葡萄酒酿制过程监测系统的开发提供了一定技术支持。文章系统概述了近十年来国内外NIR技术在葡萄、葡萄酒、葡萄汁及葡萄副产物检测中的应用现状,旨在为葡萄及其制品在后续分类鉴定与品质评价研究方面提供参考。研究表明NIR技术通过定量定性分析可实现葡萄复杂理化成分的多组分检测和分类鉴别,在测定葡萄理化特性与内部品质方面的研究已经有了一定的进展,且在葡萄酒、葡萄汁的品质过程监测和定性鉴别方面的研究应用逐渐增多,并逐步应用于葡萄皮中多酚、花青素等葡萄副产物分析,以及葡萄藤、葡萄叶营养生长状况监测等其他方面,进一步证实了NIR技术正成为检测葡萄及其制品品质的一种有效工具,为进一步提高葡萄及其制品品质价值以及实现葡萄果园的实时、高效生产管理提供了技术支持,应用前景极为广泛。如何深入挖掘葡萄及葡萄制品不同类检测数据所反映信息的内在关联性,结合视觉、味觉、嗅觉等多源信息融合技术建立预测精确度更高、更稳健的模型去全面评价葡萄生产、果园管理、成熟期收获及产后加工全过程,实现对葡萄及其制品生产全过程质量控制和在线监测将成为今后的发展趋势。     

碘化物升华分离-电感耦合等离子体光谱法测定土壤和沉积物中砷、锑、铋、镉、锡

将土壤或水系沉积物样品与固体NH4I按1:0·25的比例在双球玻璃管中混匀后在苯灯喷焰上加热,使样品中的As,Sb,Bi,Cd和Sn转变为碘化物升华逸出而与基体分离,挥发物用盐酸溶解后用电感耦合等离子体光谱法(ICP-AES)测定。实验探讨了NH4I的用量、挥发和溶解条件,光谱测定条件,内标选择,测定谱线选择及背景和谱线干扰校正。用土壤和水系沉积物国家一级标准物质验证了方法的准确性和精密度,测定结果与标准值吻合。方法快速简便,结果可靠,检出限为0·01～0·35μg·g-1,适用于地球化学勘探大批量土壤和沉积物样品中As,Sb,Bi,Cd和Sn的测定。     

Principles of demineralization: modern strategies for the isolation of organic frameworks. Part I. Common definitions and history

In contrast to biomineralization phenomena, that are among the most widely studied topics in modern material and earth science and biomedicine, much less is systematized on modern view of demineralization. Biomineralized structures and tissues are composites, containing a biologically produced organic matrix and nano- or microscale amorphous or crystalline minerals. Demineralization is the process of removing the inorganic part, or the biominerals, that takes place in nature via either physiological or pathological pathways in organisms. In vitro demineralization processes, used to obtain mechanistic information, consist in the isolation of the mineral phase of the composite biomaterials from the organic matrix. Physiological and pathological demineralization include, for example, bone resorption mediated by osteoclasts. Bioerosion, a more general term for the process of deterioration of the composite biomaterials represents chemical deterioration of the organic and mineral phase followed by biological attack of the composite by microorganisms and enzymes. Bioerosional organisms are represented by endolithic cyanobacteria, fungi, algae, plants, sponges, phoronids and polychaetes, mollusks, fish and echinoids.In the history of demineralization studies, the driving force was based on problems of human health, mostly dental caries. In this paper we summarize and integrate a number of events, discoveries, milestone papers and books on different aspect of demineralization during the last 400 years. Overall, demineralization is a rapidly growing and challenging aspect of various scientific disciplines such as astrobiology, paleoclimatology, geomedicine, archaeology, geobiology, dentistry, histology, biotechnology, and others to mention just a few.     

Individual and interactive effect of ultrasound pre-treatment on drying kinetics and biochemical qualities of food: A critical review

One of the earliest and most prevalent processing methods to increase the shelf-life of foods is drying. In recent years, there has been an increased demand to improve product quality while lowering processing times, expenses, and energy usage in the drying process. Pre-treatments are therefore effectively used before drying to enhance heat and mass transfer, increase drying efficiency, and lessen degradation of final product quality. When food is dried, changes are expected in its taste, color, texture, and physical, chemical, and microbial properties. This has led to the need for research and development into the creation of new and effective pre-treatment technologies including high-pressure processing, pulsed electric field, ultraviolet irradiation, and ultrasound. Sound waves that have a frequency >20 kHz, which is above the upper limit of the audible frequency range, are referred to as “ultrasound”. Ultrasonication (US) is a non-thermal technology, that has mechanical, cavitational, and sponge effects on food materials. Ultrasound pre-treatment enhances the drying characteristics by producing microchannels in the food tissue, facilitating internal moisture diffusion in the finished product, and lowering the barrier to water migration. The goal of ultrasound pre-treatment is to save processing time, conserve energy, and enhance the quality, safety, and shelf-life of food products. This study presents a comprehensive overview of the fundamentals of ultrasound, its mechanism, and how the individual effects of ultrasonic pre-treatment and the interactive effects of ultrasound-assisted technologies affect the drying kinetics, bioactive components, color, textural, and sensory qualities of food. The difficulties that can arise when using ultrasound technology as a drying pretreatment approach, such as inadequate management of heat, the employment of ultrasound at a limited frequency, and the generation of free radicals, have also been explained.     

火焰原子吸收光谱法测定磁化杯中铅、镉和铁

本文研究了火焰原子吸收光谱法测定磁化杯陶瓷内胆中Ｐｈ、Ｃｄ和Ｆｅ含量的方法。样品经粉碎，用硝酸－高氯酸混合液进行消解后测定。本法灵敏度高，干扰少，简单，快速，具有良好的精密度和准确度，其相对标准偏差分别为Ｐｂ３．９９％，Ｃｄ１０．７％，Ｆｅ０．９％。回收率Ｐｂ１００．６１％，Ｃｄ１０１．１８％，Ｆｅ１０２．４％。     

Physical properties and device applications of graphene oxide

Graphene oxide (GO), the functionalized graphene with oxygenated groups (mainly epoxy and hydroxyl), has attracted resurgent interests in the past decade owing to its large surface area, superior physical and chemical properties, and easy composition with other materials via surface functional groups. Usually, GO is used as an important raw material for mass production of graphene via reduction. However, under different conditions, the coverage, types, and arrangements of oxygen-containing groups in GO can be varied, which give rise to excellent and controllable physical properties, such as tunable electronic and mechanical properties depending closely on oxidation degree, suppressed thermal conductivity, optical transparency and fluorescence, and nonlinear optical properties. Based on these outstanding properties, many electronic, optical, optoelectronic, and thermoelectric devices with high performance can be achieved on the basis of GO. Here we present a comprehensive review on recent progress of GO, focusing on the atomic structures, fundamental physical properties, and related device applications, including transparent and flexible conductors, field-effect transistors, electrical and optical sensors, fluorescence quenchers, optical limiters and absorbers, surface enhanced Raman scattering detectors, solar cells, light-emitting diodes, and thermal rectifiers.     

Review of ultrasound combinations with hybrid and innovative techniques for extraction and processing of food and natural products

Ultrasound has a significant effect on the rate of various processes in food, perfume, cosmetic, pharmaceutical, bio-fuel, materials, or fine chemical industries, despite some shortcomings. Combination with other conventional or innovative techniques can overcome these limitations, enhance energy, momentum and mass transfer, and has been successfully demonstrated in many recent studies. Various ultrasound combined hybrid and innovative techniques are systematically summarized in this review for the first time. Ultrasound can be combined with diverse conventional techniques including Soxhlet, Clevenger, enzyme, hydrotropes, ionic liquids, Deep Eutectic Solvents (DES) or Natural Deep Eutectic Solvents (NADES), to enhance mixing and micro-mixing, reduced thermal and concentration gradients, and selective extraction. Moreover, combinations of ultrasound with other innovative techniques such as microwave, extrusion, supercritical fluid, subcritical and pressure liquids, Instant controlled pressure drop (DIC), Pulsed Electric Field (PEF), Ultra-Violet (UV) or Infra-Red (IR) radiations, Counter-current chromatography (CCC), or centrifugal partition chromatographs (CPC) can enable reduced equipment size, faster response to process control, faster start-up, increased production, and elimination of process steps. The theories and applications of these ultrasound combined hybrid and innovative techniques as well as their advantages and limitations are compared, and further perspectives are proposed. This review provides new insights into advances in ultrasound combined techniques and their application at research, educational, and industrial level in modern food and plant-based chemistry.     

Nanoparticle decoration with surfactants: Molecular interactions,assembly, and applications

Nanostructures of diverse chemical nature are used as biomarkers, therapeutics, catalysts, and structural reinforcements. The decoration with surfactants has a long history and is essential to introduce specific functions. The definition of surfactants in this review is very broad, following its lexical meaning “surface active agents”, and therefore includes traditional alkyl modifiers, biological ligands, polymers, and other surface active molecules. The review systematically covers covalent and non-covalent interactions of such surfactants with various types of nanomaterials, including metals, oxides, layered materials, and polymers as well as their applications. The major themes are (i) molecular recognition and noncovalent assembly mechanisms of surfactants on the nanoparticle and nanocrystal surfaces, (ii) covalent grafting techniques and multi-step surface modification, (iii) dispersion properties and surface reactions, (iv) the use of surfactants to influence crystal growth, as well as (v) the incorporation of biorecognition and other material-targeting functionality. For the diverse materials classes, similarities and differences in surfactant assembly, function, as well as materials performance in specific applications are described in a comparative way. Major factors that lead to differentiation are the surface energy, surface chemistry and pH sensitivity, as well as the degree of surface regularity and defects in the nanoparticle cores and in the surfactant shell. The review covers a broad range of surface modifications and applications in biological recognition and therapeutics, sensors, nanomaterials for catalysis, energy conversion and storage, the dispersion properties of nanoparticles in structural composites and cement, as well as purification systems and classical detergents. Design principles for surfactants to optimize the performance of specific nanostructures are discussed. The review concludes with challenges and opportunities.     

A Conversation with Franco Rasetti

Along with Enrico Fermi, Franco Rasetti played a key role in the rebirth of Italian physics in the 1920s and 1930s. In this interview he talks about his experiments at Caltech on the Raman effect in 1928–1929, mountain climbing, his passion for bugs, fossils, and flowers, and doing physics in Florence, Rome, Berlin-Dahlem, and Quebec. Rasetti also reminisces about the Rome school of mathematics and other scientists he has known and worked with in Europe and in North America, including Robert and Glenn Millikan, Lise Meitner, and O. M. Corbino.     

Oxides,Oxides, and More Oxides: High-κ Oxides,Ferroelectrics, Ferromagnetics,and Multiferroics

We review and critique the recent developments on multifunctional oxide materials, which are gaining a good deal of interest. Recongnizing that this is a vast area, the focus of this treatment is mainly on high-κ dielectric, ferroelectric, magnetic, and multiferroic materials. Also, we consider ferrimagnetic oxides in the context of the new, rapidly developing field of negative-index metamaterials. This review is motivated by the recent resurgence of interest in complex oxides owing to their coupling of electrical, magnetic, thermal, mechanical, and optical properties, which make them suitable for a wide variety of applications, including heat, motion, electric, and magnetic sensors; tunable and compact microwave passive components; surface acoustic wave devices; nonlinear optics; and nonvolatile memory, and pave the way for designing multifunctional devices and unique applications in spintronics and negative refraction-index media. For most of the materials treated here, structural and physical properties, preparation methods accompanied by particulars of synthesis of thin films, devices based on them, and some projections into their future applications are discussed.