芹菜籽香气成分研究

采用固相微萃取法萃取黑龙江产芹菜籽香气成分,然后用GC—MS进行成分分析,并与水蒸气蒸馏法获得的精油成分进行比较．用CAR on PDMS萃取柱进行顶空固相微萃取时,共检测出26种成分,鉴定出占总成份89．650％的20种成分,主要成分为柠檬烯（35．980％）,β-月桂烯（20．500％）,β-蛇床烯（16．160％）,正戊基苯（5．295％）,β-蒎烯（3．412％）,α-蛇床烯（3．293％）．水蒸汽蒸馏法提取芹菜籽,以1．18％产率获得精油,共检测出23个成分,鉴定出占总精油91．375％的18种成分,主要成分为柠檬烯（31．149％）,β-蛇床烯（22．281％）,对甲苯基异戊酸酯（14．944％）,α-2-丙烯基苯甲醇（9．872％）,β-月桂烯（4．324％）和α-蛇床烯（4．322％）．     

基于红外热成像技术和广义回归神经网络的稻种发芽率检测方法研究

基于稻种老化时间不同时的物理学和生理学差异,提出一种基于红外热成像技术及广义回归神经网络的快速、无损检测稻种发芽率的检测方法,解决传统稻种发芽率检测方法操作复杂、实验周期长等问题。在温度为45 ℃、湿度为90%的条件下,将水稻种子依次老化0,1,2,3,4,5,6和7 d,得到不同发芽率的种子;采集稻种红外热图像,然后提取稻种胚芽部位数据,总计144份,随机分为校正集和预测集,其中校正集96份,预测集48份;分析和比较不同老化天数稻种红外热差异,从物理学和生理学方面揭示稻种发芽率与红外热图像间的关系,结合偏最小二乘算法(partial least squares, PLS)、BP(back propagation, BP)人工神经网络和广义回归神经网络(general regression neural network, GRNN),建立稻种发芽率的红外热模型。结果表明,利用GRNN建立的发芽率预测模型效果最优,其中校正集的R_C(相关系数)和SEC(标准偏差)分别为0.932 0和2.056 0,预测集R_P(相关系数)和SEP(标准偏差)分别为0.900 3和4.101 2,相关性均达到较高水平且校正集与预测集的标准偏差均较小。实验结果表明,采用红外热成像技术结合广义回归神经网络研究稻种发芽率是可行的,且所建模型在稻种发芽率快速测定方面有较高的精度。     

红外光谱和拉曼光谱法分析玉米种子的成分

采用傅立叶红外光谱法(FTIR)及拉曼光谱分析了玉米种子不同部位的成分。实验表明,不同部位蛋白质、脂类和碳水化合物的特征吸收峰的相对强弱是不同的。玉米种子的胚中这3种物质的特征吸收峰强度较为均匀,差别不大。胚乳中脂类特征吸收峰最强,显示胚乳中脂类占据主导。白色的糊粉层则以碳水化合物为主。而外层黄色部位蛋白质和碳水化合物的吸收峰较强,脂类的吸收峰很小。拉曼光谱分析可以看到玉米种子的类胡萝卜素含量从黄色的外层到胚逐渐降低。     

Growth of Au@Ag Core–Shell Pentatwinned Nanorods: Tuning the End Facets

Au@Ag core–shell nanorods with tunable end facets are obtained by coating Au bipyramids (BPs) with Ag. The resultant nanorods exhibit a pentatwinned crystal structure with tips terminated with either {110} or {111} facets. The control over the end facets is achieved by varying the capping agents and tuning the reduction rate of Ag. Specifically, when Ag is reduced slowly, Au@Ag nanorods with flat {110} end facets are formed with cetyltrimethylammonium bromide (CTAB) as the capping agent. If CTAB is replaced with cetyltrimethylammonium chloride (CTAC), Au@Ag nanorods with tips terminated with {111} facets are obtained. However, at a high Ag reduction rate, dumbbell‐shaped Au@Ag nanorods are formed, with either CTAB or CTAC as the capping agent. The morphological evolution of the nanorods in each case is closely followed and a growth mechanism is proposed.     

Impacts of seed power on amplification performance in pulsed double-clad fiber amplifier

A pulsed master-oscillator fiber power amplifier system with near diffraction-limited output by use of China-made large-mode-area fiber and a （2 ＋ 1） × 1 multimode combiner is reported. The effect of the seed power on the amplification performance is found. For the seed power, there exists a range within which the pulsed fiber amplifier can operate safely and reliably at a certain pump power. With the seed average power of 70 mW, the amplification performances of the fiber amplifier are investigated.     

含铁微孔EU-1/ZSM-5复合分子筛的合成和表征

采用预置晶种法合成了含铁的微孔EU-1/ZSM-5复合分子筛,并采用X射线粉末衍射(XRD)、扫描电子显微镜(SEM)、热重-微分热重(TG-DTG)、N₂吸附-脱附、紫外-可见吸收光谱(UV-vis DRS)、X射线吸收精细结构(XAFS)等手段进行了表征。结果表明,复合分子筛具有EU-1和ZSM-5的特征衍射峰,是两种晶相相互作用的分子分散晶相材料,微孔孔径较Fe-EU-1分子筛有所增大。随原始溶胶中铁的质量分数增加,复合分子筛具有的23.09°和23.94°处的特征衍射峰逐渐向低角度方向偏移;紫外-可见漫反射谱图中在220~245 nm出现了宽的吸收谱带;XAFS表征表明,1s→3d电子跃迁的弱吸收峰逐渐增强,同时在吸收边顶部出现的1s→4p吸收峰逐渐由宽变窄。合成工艺的最佳条件为,原始溶胶中铁的质量分数为0.075%~0.15%,晶种添加比例为15.0%~21.0%,晶种SiO₂/Al₂O₃物质的量比为50~60。     

Chemical Composition of Tomato Seed Flours,and Their Radical Scavenging,Anti-Inflammatory and Gut Microbiota Modulating Properties

In the current study, the chemical composition and total phenolic content of tomato seed flours, along with potential health beneficial properties, including free radical scavenging capacities, anti-inflammatory capacities, and gut microbiota profile modulation, were examined using two different batches. Eight compounds were identified in the tomato seed flour, including malic acid, 2-hydroxyadipic acid, salicylic acid, naringin, N-acetyl-tryptophan, quercetin-di-O-hexoside, kaempferol-di-O-hexoside, and azelaic acid. The total phenolic contents of tomato seed flour were 1.97–2.00 mg gallic acid equivalents/g. Oxygen radical absorbing capacities (ORAC), 2,2-diphenyl-1-picrylhydrazyl radical scavenging capacities (DPPH), and 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) cation radical scavenging capacities (ABTS) were 86.32–88.57, 3.57–3.81, and 3.39–3.58 µmoles Trolox equivalents/g, respectively, on a per flour dry weight basis. The mRNA expression of the pro-inflammatory markers, interleukin-1 beta (IL-1β), interleukin-6 (IL-6), and tumor necrosis factor alpha (TNF-α), were dose-dependently suppressed by tomato seed flour extracts. The extracts altered five of the eight bacterial phyla and genera evaluated. The results may provide some scientific support for the use of tomato seed flour as value-added food ingredients.     

Controlling the Size and Morphology of Au@Pd Core–Shell Nanocrystals by Manipulating the Kinetics of Seeded Growth

This article reports a systematic study of the seed‐mediated growth of Au@Pd core–shell nanocrystals with a variety of controlled sizes and morphologies. The key to the success of this synthesis is to manipulate the reaction kinetics by tuning a set of reaction parameters, including the type and concentration of capping agent, the amount of ascorbic acid used as the reducing agent, and the injection rate used for the precursor solution. Starting from Au nanospheres of 11 nm in diameter as the seeds, Au@Pd core–shell nanocrystals with a number of morphologies, including octahedra, concave octahedra, rectangular bars, cubes, concave cubes, and dendrites, could all be obtained by simply altering the reaction rate. For the first time, it was possible to generate Au@Pd nanocrystals with concave structures on the surfaces while their sizes were kept below 20 nm. In addition, the as‐prepared Au@Pd nanocubes can be used as seeds to generate Au@Pd@Au and Au@Pd@Au@Pd nanocrystals with multishelled structures.     

玻璃基底上不规则银纳米结构的生长及其光学性质的研究

以经过硅烷化后玻璃片为基底，之后吸附金纳米种子，采用柠檬酸钠为还原剂，在荧光灯照射条件下还原硝酸银，制备出基底表面具有银纳米粒子聚集结构的材料。采用透射电镜、扫描电镜和紫外可见分光光度计对产物的形貌和性质进行了表征，并考察银纳米粒子的形貌对其薄膜基底SERS活性的影响。结果表明：随着光照时间增加至16 h，金种子长大为平均粒径110 nm的不规则状多晶银纳米粒子，且出现双层粒子堆积。基底上纳米粒子的吸收光谱上出现了由银粒子的表面等离子体激元偶极子耦合引发的强烈吸收峰：随着光照时间的变化，耦合峰在600～813 nm波段内移动。光照时间为12 h后得到的SERS活性基底具有最强的SERS信号。     

Investigation of bump defects formed in back end of line for 28 nm technological node

In order to quickly ramp up and maintain good yield, it was very important that the bump defects as the killer for 28 nm technological node were accurately detected, and the quantities of the bump defects rapidly decreased by the adjusting processes. The main purpose of this paper was to investigate the performance of the bump defects in the back end of line for 28 nm technology and detect the seeds of the forming bump defect. Firstly, the bump defects were scanned by the optical examination instrument. Subsequently, the scanned defect map was transferred into scanning electron microscopy reviewing system to observe the types and sizes of the bump defects. For finding the seed of forming the bump defect, the defects were cut from the wafer using a focused ion beam, and then a transmission electron microscope was used for observing interface to identify the location of the seed of forming the bump defect. Results showed that the bump defect originated from the interface between metal (after chemical mechanical polish) and dielectric cap layer. In addition, an in‐depth study of the formation of the bump defect was carried out using the different film stacks. Copyright © 2016 John Wiley & Sons, Ltd.