涡轮叶片前缘阵列冲击冷却流动及传热特性数值研究

本文采用SST湍流模型模拟了类前缘通道内蒸汽射流阵列冲击冷却的流动与传热特性,分析了雷诺数(Re=10000～50000)、孔径比(d/H=0.5～0.9)和孔间距比(S/H=2～6)对流动及传热性能的影响规律,得到了相应的传热和摩擦关联式。结果表明:在不同雷诺数下,d/H从0.5到0.9变化时,通道压力损失系数降低了76%～79%,靶面平均努塞尔数降低了45%～49%;S/H从2增至6时,通道压力损失系数增加了1.64～1.92倍,靶面平均努塞尔数增加了54%～64%;增大d/H、减小S/H可有效提高类前缘通道蒸汽冲击冷却的综合热力系数。本文研究结果可为未来先进燃气轮机高温涡轮叶片蒸汽冷却结构的设计提供参考和借鉴。     

一种双阻带红外频率选择表面

为实现中、远红外大气窗口的双波段低红外透过率,设计了由2层不同尺寸圆环单元构成的双屏红外频率选择表面(FSS),仿真结果表明该FSS在3~5μm和8~12μm波段形成两个平均透过率低于5%的阻带.对FSS表面电流分析的结果说明,谐振单元表面感应出的对称分布电流使散射总场增强,形成增强型反射,而不同尺寸的谐振单元具有不同的谐振波长,两层谐振单元共同作用形成了两个阻带.研究了入射角以及介质层属性(厚度、介电常数和损耗角正切)对FSS传输特性的影响,结果表明FSS在两个大气窗口内具有良好的角度稳定性,介质层介电常数对FSS的传输特性有较大影响.     

Ultrabright AIEdots with tunable narrow emission for multiplexed fluorescence imaging

AIEgen doped fluorescent nanodots (AIEdots) have attracted lots of attention, due to their superior characteristics as fluorescent probes, such as excellent photostability, large Stokes shift, high brightness and tunable emission. Unfortunately, most of the currently available AIEdots exhibit broad emission bandwidth, which limits their applications in multiplexed fluorescence imaging and detection. In this work, the strategy of designing and fabricating narrow emissive AIEdots (NE-AIEdots) with tunable wavelengths was presented by constructing a light-harvesting system with high energy transfer efficiency. Efficient intra-particle energy transfer from highly doped AIEgens, serving as the light-harvesting antenna, to the lightly doped narrow emissive fluorophore, resulted in high brightness and narrow emission. The emission band of NE-AIEdots with the full-width-at-half-maximum varied from 18 to 36 nm was 3–6.3 times narrower than that of traditional AIEdots. The single-particle brightness of NE-AIEdots was over 5-times that of commercial quantum dots under the same excitation and collection conditions. Taking advantage of the superior performance of these NE-AIEdots, multiplexed fluorescence imaging of lymph nodes in living mice was realized, which supported the future applications of NE-AIEdots for in vivo multiplexed labeling and clinical surgery.

AIEdots with high brightness and narrow emission bandwidth were developed for multiplexed in vitro and in vivo fluorescence imaging.     

基于神经网络技术的f0F2短期预报方法

利用神经网络技术并考虑太阳和地磁活动对电离层的影响,提出一种提前1h预报电离层临界频率f0F2的方法.网络的输入包括时间、季节、地磁指数、太阳黑子数.太阳射电流量F10.7以及f0F2偏离月中值的一阶和二阶有限差和相对偏差.分别用广州和兰州站的历史数据进行检验,预报结果与观测数据符合得较好,比国际参考电离层更具有实用性.     

大气电场及其对植物和农业的影响

介绍了大气电场的物理参数及其形成的物理机制,讨论了大气电场对植物和农业的影响.     

铜/金修饰电极-阴离子交换色谱-直流安培法测定阿米卡星注射液组分

建立了一种用阴离子交换色谱分离、以自制铜/金修饰电极为工作电极的直流安培电化学法(DC)直接检测硫酸阿米卡星注射液中主要组分及杂质含量的分析方法。考察了流动相浓度、测定电位等参数对色谱分离和测定的影响。在固定相为CarboPacPA10阴离子交换柱、流动相为26 mmol/L NaOH的色谱条件下,检测电位为0.64 V时,阿米卡星在0.0005~0.02 g/L(r=0.9989)和0.02~0.2 g/L(r=0.9991)两个浓度范围内呈线性。与裸Au电极在采用脉冲安培检测模式(PAD)时相比,电化学检测所需要的碱性强度低(pH<13),而且测定灵敏度高,线性范围宽。本方法不需要柱前和柱后衍生化,能同时测定硫酸阿米卡星注射液中的主要组分和杂质组分。修饰电极制作方法简单,催化稳定性好,可望被应用到流动注射、毛细管电泳等其它流动体系中,对硫酸阿米卡星原料药、注射液等实际样品中的各组分进行测定。     

荧光淬灭和加强理论公式合理性的热力学分析

通过荧光法在不同温度下研究了3种第三代头孢新药: 盐酸头孢吡肟、头孢匹胺和头孢唑肟钠与人血清白蛋白(HSA)和牛血清白蛋白(BSA)的作用, 分别应用荧光淬灭和荧光加强理论公式计算了它们的结合常数等, 进而分别计算了它们的热力学函数. 因对应于不同的理论公式得出的K_A值并不完全相同, 由此得到它们相应的热力学参数也有所不同. 本文对这些热力学数据的差异进行了分析比较, 结果表明: 基于荧光加强理论公式(4)获得的热力学数据显示更为合理. 因而我们建议, 即使在研究受体-底物的荧光淬灭反应时, 采用荧光加强理论公式(4)可以获得更符合实际的结果.     

Preparation and Properties of Electrospun Sheath-core Modified-PMMA Nanofibers with Photoluminescence and Photochromic Functions

Multi-functional nanofibers are playing an important role in the optical field, and are widely used in fluorescence indication, product anti-counterfeit identification and smart clothing. Nanofibers with photoluminescence and photochromic functions are already attracting more interest from researchers. In this work, based on electrospun technology, the modified-PMMA nanofibers[PMMA=poly(methyl methacrylate)] with photoluminescence and photochromic functions were prepared through the design of the sheath-core structure(SCNFs 1-4). Compared with other samples, SCNF-4 shows outstanding photoluminescence and photochromic functions. SCNF-4 can produce green light and its fluorescence intensity and fluorescence lifetime can reach 7144 a.u. and 1031.32 μs, respectively. In photochromic functions, SCNF-4 can show purple in 1 min under the 365 nm ultraviolet light, and the color can be preserved for more than 4 h under the sunlight. When SCNF-4 is irradiated by far infrared light, the color of the samples can fade quickly in 40 s. Under the irradiation of ultraviolet light of different wavelengths, SCNF-4 can display multi-color fluorescence and achieve a reversible transition between white and purple. The design of the sheath-core structure realizes the complementarity of photoluminescence and photochromic functions of the electrospun modified-PMMA nanofibers, which is important to promote the wide application of multi-functional nanofibers in the optical field.     

缓冲层ZnPc对有机电致发光器件特性的影响

本文研究了酞菁锌(ZnPc)薄膜的表面形貌及ZnPc薄膜作为缓冲层对有机电致发光器件(OLEDs)光电特性的影响.对比两组样品的AFM图像,ZnPc薄膜相比于ITO薄膜,其表面的岛面积较大,薄膜表面更连续平整,基本上覆盖了ITO膜表面针孔,减少了表面的缺陷.另外,ZnPc薄膜的岛分布均匀有序.使用ZnPc作为缓冲层的器件性能明显好于未使用ZnPc修饰的器件,在7.42V的驱动电压下的最大发光亮度达到1.428kcd/m2,在4.3V电压驱动下时,最大光功率效率为1.411m/W;而未使用缓冲层的器件在8V的驱动电压下达到最大发光亮度达到1.212kcd/m2,在5.5V电压驱动下时,最大光功率效率为0.931m/W.     

采用深度可分离卷积和改进特征融合的MSSD

单步多框检测器(Single Shot Multibox Detector,SSD)是一种优秀的目标检测模型,但是其对额外层的处理方式还需要进一步提升.因此,利用深度可分离卷积的思想设计新的深度可分离卷积模块改进模型中的额外层,采用紧邻特征图融合方法加强特征复用,综合设计了改进的目标检测模型(Modified SSD,...