中空多壳层结构在电磁波领域中的应用

中空多壳层结构(HoMSs)是一种以纳米颗粒为结构单元构筑而成的具有多界面、 多维度的微纳米级宏观组装体, 具有次序排列的多个壳层及相互连通的多个空腔, 被认为是电磁波领域极具应用前景的功能材料. 本文主要从电磁波捕获、 传输及能量转换3个角度详细阐述HoMSs在电磁波领域应用中的独特优势, 浅析了HoMSs壳层数目、 壳层厚度、 壳层间距、 壳层组成等结构参数对电磁波传输与利用的影响规律, 并预测了HoMSs在电磁波领域的发展趋势, 以期为实现电磁波的高效利用提供参考.     

Effect of nanoparticle network formation on electromagnetic properties and cell morphology of microcellular polymer nanocomposite foams

Adding high loadings of nanoparticles can remarkably alter the functionality of polymer nanocomposite foams. Therefore, this dramatic change was studied at the percolation threshold as a point to predict the properties of foamed nanocomposites using the viscoelastic characteristics of un-foamed ones. In this research, the effect of incorporating 10–40 wt% of ZnO nanoparticles on rheological properties of PS/ZnO samples was investigated. Then, these samples were foamed at processing temperatures of 80 and 120 °C to study morphology and electromagnetic properties. First, the rheological study showed that the storage modulus of nanocomposites increased significantly above 20 wt% of nanoparticles. A connected network of nanoparticles altered the microstructure of nanocomposite at this rheological percolation. The morphological results show a higher cell density for foamed samples above the rheological percolation. From electromagnetic properties, the effect of ZnO connected network is obvious on the absorption enhancement for 30 and 40 wt% and only for 40 wt% of ZnO at 80 and 120 °C, respectively. Therefore, the viscoelastic properties of samples are still dominant at the lower temperature, but the foam structure became more important at the higher temperatures. This shows that the role of the filler network faded at the higher temperature and electromagnetic properties were changed with the foam structure. The microstructure expansion results in the decrease of filler amount at a fixed volume of foams, so more filler fraction is required to form a connected network of nanoparticles.     

EMI shielding and dynamic mechanical analysis of graphene oxide-carbon nanotube-acrylonitrile butadiene styrene hybrid composites

Carbon nanomaterials such as carbon nanotubes (CNTs), graphene and their hybrid have been studied extensively. Despite having excellent properties of CNTs and graphene have not yet been fully realized in the polymer composites. During fabrication agglomeration of CNTs and restacking of graphene is a serious concern that results in the degradation of properties of nanomaterials into the final composites. To improve the dispersion of CNTs and restacking graphene, in the present research work, we focused on the hybridization of graphene oxide and CNTs. Multiwalled carbon nanotubes (MWCNTs), functionalized carbon nanotubes (FCNTs), and graphene oxide-carbon nanotubes (GCNTs) reinforced acrylonitrile butadiene styrene (ABS) composites were prepared separately by vacuum filtration followed by hot compression molding. Further, dynamic mechanical analysis (DMA), and electromagnetic interference (EMI) shielding properties of ABS composites reinforced carbon nanofillers were investigated. The dynamic mechanical properties of polymers strongly depend on the adhesion of fillers and polymer, entanglement density of polymer chains in the presence of carbon fillers. The dynamic mechanical characteristics such as storage, loss modulus, and damping factor of prepared composites were significantly affected by the incorporation of MWCNTs, FCNTs, and GCNTs. Maximum EMI shielding effectiveness of −49.6 dB was achieved for GCNT-ABS composites which were highest compared to MWCNTs-ABS composites (−38.6 dB) and FCNTs-ABS composites (−36.7 dB) in the Ku band (12.4–18 GHz). These results depict the great potential of GCNTs-ABS composites to be used in various applications of efficient heat dissipative EMI shielding materials for electronic devices.     

反射式红外传感器在智能型节水系统中的应用

利用反射式红外传感器和少量的电子器件(单稳态触发器),研制了智能型节水控制系统。该系统能够识别是否有人入厕,酌情产生冲洗信号, 躯动进水电磁阀开启,向浮球式水箱内注水,待注满足以冲刷干净所需的两水箱水后,便自动地切断电磁阀中电源,达到了既卫生又节约的目的。在某一教学楼应用该系统一年多来,与无使用此系统的同规模另一教学楼相比,节水约70％。该系统元件少、成本低、结构合理、工作可靠、安装容易、维修方便,有广阔的应用前景。     

激光陀螺磁灵敏度特性研究

分析、计算了激光陀螺的磁灵敏度特性,并进行了磁灵敏度试验.试验结果及分析表明：在腔体加工准确度不变的情况下,采用合理的设计可以大大降低激光陀螺在某些方向上的磁灵敏度,同时磁试验结果对于设计激光陀螺的磁屏蔽结构具有一定的实用价值.     

Direct computation of second-order SCF properties of large molecules on workstation computers with an application to large carbon clusters

Summary The ab initio SCF computation of second-order properties of large molecules (with 50 atoms or more) on workstation computers is demonstrated for static dipole polarizabilities and nuclear magneting shieldings. The magnetic shieldings are calculated on the basis of gauge including atomic orbitals (GIAO). Algorithmic advances (semi-direct algorithms with efficient integral pre-screening, and use of a quadratically convergent functional for the polarizabilities) are presented together with an illustrative application to the fullerenes C₆₀ and C₇₀.     

四分之一超导谐振腔的仿真对比

超导量子电路已成为实现量子计算机的主流技术路线之一,其中四分之一波长超导谐振腔主要用于读取量子比特的状态信息,是实现超导量子电路的关键器件.本文设计了四分之一波长超导谐振腔,利用两种电磁仿真算法(有限元法以及矩量法),对超导谐振腔的传输特性进行建模仿真验证.制备出了设计的超导谐振腔样品,在20±5 mK的低温环境下对其传输特性进行测量.通过仿真结果与设计值和实测值进行对比研究,发现基于矩量法的sonnet软件在仿真准确性、仿真速率以及资源消耗等方面都优于基于有限元法的HFSS软件.同时研究了谐振腔之间的串扰对仿真精度的影响,当谐振腔数目不多时,其相互之间串扰的影响几乎可以忽略.     

Elastic behaviour of an edge dislocation near a sharp crack emanating from a semi-elliptical blunt crack

The interaction between an edge dislocation and a crack emanating from a semi-elliptic hole is dealt with. Utilizing the complex variable method, closed form solutions are derived for complex potentials and stress fields. The stress intensity factor at the tip of the crack and the image force acting on the edge dislocation are also calculated. The influence of the morphology of the blunt crack and the position of the edge dislocation on the shielding effect to the crack and the image force is examined in detail. The results indicate that the shielding or anti-shielding effect to the stress intensity factor increases acutely when the dislocation approaches the tip of the crack. The effect of the morphology of the blunt crack on the stress intensity factor of the crack and the image force is very significant.     

锑掺杂氧化锡粉体的太赫兹透射特性

以SnCl45H2O和SbCl3为原料,采用液相化学共沉淀法制备锑掺杂氧化锡（ATO）粉体。分析了不同Sb掺杂质量分数条件下,ATO粉体的禁带宽度变化,并对材料在0.2~1.6 THz波段的透射时域和频域谱,以及吸收和屏蔽参数进行了对比分析。结果表明,ATO粉体的禁带宽度随着Sb掺杂量的增加先减小后增大;同时,ATO粉体对THz波的吸收系数随着Sb掺杂量的增加先增大后减小,当Sb掺杂质量分数为9%时,ATO的吸收系数在1.25 THz处达到最大值156.5 cm-1,屏蔽效能在1.24~1.60 THz范围内最高达到45.0 dB。     

The existence and stability of bulk nanobubbles:a long-standing dispute on the experimentally observed mesoscopic inhomogeneities in aqueous solutions

In theory,nanobubbles can stably exist with a lifetime of microseconds at most,but numerous experimental observations demonstrate that nanobubbles in bulk solution can be stable from hours to weeks.Although various conjectures on the stability mechanism of bulk nanobubbles,such as the contaminant mechanism,skin mechanism,surface zeta potential mechanism,are proposed,there has not yet been a unified conclusion.Since bulk nanobubbles show great potential in a wide spectrum of applications and are relevant to a number of unsolved questions on cavitation and nucleation,the debate over their stability mechanisms has been active.In the past,extensive studies have been carried out to understand the mechanism of nanobubble stability,and important insights have already been provided.This paper will provide a brief overview of our current understanding of the unexpected stability of bulk nanobubbles.