溶胶-凝胶方法制备ZrO2及聚合物掺杂ZrO2单层光学增反射膜

以丙醇锆(Zr(OPr)₄)为原料，乙酸(HAc)为络合剂，聚乙二醇(PEG200)和聚乙烯吡咯烷酮(PVP)为大分子添加剂，在乙醇体系中成功合成了ZrO₂及聚合物掺杂ZrO₂溶胶.用旋涂法在K9玻璃基片上制备单层光学增反射膜.借助小角X射线散射和激光动态光散射技术研究胶体的微结构.采用傅里叶变换红外光谱、差示扫描量热分析、X射线衍射分析、原子力显微镜、紫外/可见/近红外透射光谱以及椭偏仪对薄膜的结构和光学性能进行表征.用输出波长为1064 关键词： 二氧化锆 溶胶-凝胶 增反射膜 激光损伤     

PVP掺杂-ZrO2溶胶-凝胶工艺制备多层激光高反射膜的研究

以丙醇锆(ZrPr)为锆源，二乙醇胺(DEA)为络合剂，原位引入聚乙烯吡咯烷酮(PVP)，在乙醇体系中成功地合成了PVP掺杂-ZrO₂溶胶.采用旋涂法在K9玻璃基片上制备了PVP-ZrO₂单层杂化薄膜.用不同掺杂量的PVP-ZrO₂高折射率膜层与相同的SiO₂低折射率膜层交替沉积四分之一波堆高反射膜.借助小角X射线散射研究胶体微结构，用红外光谱、原子力显微镜、紫外/可见/近红外透射光谱、椭圆偏振仪以及1064nm的强激光辐照实验对薄膜的结构、光学和抗激光损伤性能进行表征.研究发现，体系组成的适当配置可以在溶胶稳定的前提下实现ZrPr的充分水解，赋予薄膜良好的结构、光学和抗激光损伤性能.杂化体系中，DEA与ZPr之间强的配合作用大大降低了ZrO₂颗粒表面羟基的活性，使得PVP大分子只是以微弱的氢键与颗粒的表面羟基作用而均匀分散于ZrO₂颗粒的周围，对颗粒的形成和生长无显著影响.因而在实验研究范围内，随PVP含量的增大，PVP-ZrO₂杂化膜层的折射率和激光损伤阈值均无显著变化.但是，薄膜中均匀分布的PVP柔性链可以有效促进膜层应力松弛，显著削弱不同膜层之间的应力不匹配程度、大大方便多层光学薄膜的制备.当高折射率膜层中PVP的质量分数达到15%—20%时，膜层之间良好的应力匹配使得多层高反射膜的沉积周期数可达到10以上.沉积10个周期的多层反射膜，在中心波长1064nm处透射率约为1.6%—2.1%，接近全反射特征，其激光损伤阈值为16.4—18.2J/cm²(脉冲宽度为1ns). 关键词： 溶胶-凝胶 2')" href="#">PVP-ZrO₂ 高反射膜 激光损伤     

Tryptanthrin-loaded nanoparticles for delivery into cultured human breast cancer cells, MCF7: the effects of solid lipid/liquid lipid ratios in the inner core

Tryptanthrin is an ancient medicine which recently was also found to have a function of downregulating multidrug resistance (MDR). However, tryptanthrin is insoluble in water, which limits its availability for delivery into cancer cells. There is a need to improve delivery systems to increase the inhibition of MDR. The aim of this study was to employ nanoparticles encapsulating tryptanthrin to improve the delivery and promote the sustained release of this drug. The approach was to encapsulate tryptanthrin in various nanoparticles, including solid lipid nanoparticles (SLNs), nanostructured lipid carriers (NLCs), and lipid emulsions (LEs). We compared the particle size and zeta potential of these nanoparticles, and evaluated the partitioning behavior of tryptanthrin in them. We also determined the release kinetics of tryptanthrin from these nanoparticles. Moreover, cellular cytotoxicity toward and uptake of tryptanthrin-loaded nanoparticles by human breast cancer cells were determined. We found that the mean particle size of NLCs was lower, and the partition coefficient was higher than those of SLNs, and an increased tryptanthrin release rate was found with the NLC delivery system. NLCs achieved the sustained release of tryptanthrin without an initial burst. In particular, the NLC-C formulation, composed of a mixture of Compritol and squalene as the core materials, showed the highest release rate and cytotoxic effect. Confocal laser scanning microscopic images confirmed drug internalization into cells which enhanced the endocytosis of the particles. These results suggested that NLCs can potentially be exploited as a drug carrier for topical or intravenous use in the future.     

Bioassisted synthesis of catalytic gold/silica nanotubes using layer-by-layer assembled polypeptide templates

We report the bioassisted synthesis of gold nanoparticle/silica (Au NP/silica) tubes using layer-by-layer (LBL) assembled poly(L-lysine)/poly(L-tyrosine) (PLL/PLT) multilayer films deposited on the polycarbonate (PC) membrane pores as both mediating agents and templates. The novelty of this approach is the in situ synthesis of Au NP/silica tubes using PLL/PLT multilayer films for sequential growth of Au NPs and silicas. The experimental data revealed that the buildup of the LBL multilayer films was mainly driven by the formation of hydrogen bond and the polypeptide macromolecular assemblies adopted mainly β-sheet conformation. The as-prepared Au NP/silica tubes possessed promising catalytic activity toward the reduction of p-nitrophenol. The synthesis conditions such as the concentration of gold precursor and polypeptide molecular weight were found to influence the gold weight ratio and particle size in the tubes and the catalytic properties of the Au NP/silica tubes. This approach provides a facile, robust, and green method to obtain nonaggregated metal nanoparticles immobilized in porous oxide network at ambient conditions. Using the synergy between biomimetic or bioassisted synthesis of nanostructured materials and LbL assembly technique, a variety of structures such as films, tubes, and capsules comprising of multiple compositions can be obtained.     

Stacks and Torsors over Quivers

We study natural Grothendieck topologies on categories of quivers without and with relations, prove descent theorems for quiver representations, and introduce the notion of torsors over quivers.     

Thermal Nonlocal Advantage of Quantum Coherence in the Two-Site,Triangular, and Tetrahedral Lattices with Heisenberg Interactions

International Journal of Theoretical Physics - Quantum correlations are physical resources for quantum information processing. The nonlocal advantage of quantum coherence (NAQC) is a kind of...     

Experimental system of coupled map lattices

We design an optical feedback loop system consisting of a liquid-crystal spatial light modulator (SLM), a lens, polarizers, a CCD camera, and a computer. The system images every SLM pixel onto one camera pixel. The light intensity on the camera pixel shows a nonlinear relationship with the phase shift applied by the SLM. Every pixel behaves as a nonlinear map, and we can control the interaction of pixels. Therefore, this feedback loop system can be regarded as a spatially extended system. This experimental coupled map has variable dimensions, which can be up to 512 by 512. The system can be used to study high-dimensional problems that computer simulations cannot handle.     

Ni对Pt/SAPO-11催化剂物化及异构性能影响

通过浸渍法制备了Pt/SAPO-11催化剂,分步浸渍法制备了Ni-Pt/SAPO-11双金属催化剂。通过X射线衍射、低温氮物理吸附、氨程序升温脱附和吡啶吸附红外等手段对所得样品进行了表征。结果表明,助剂Ni的引入导致了催化剂的比表面积和孔容降低,同时,催化剂的B酸量、L酸量及总酸量均有所下降。在340℃时对正庚烷的临氢异构化反应中,当Pt含量0.2wt%时,Pt/SAPO-11催化剂的正庚烷转化率为45%,C7异构体收率为43%;而当Pt含量0.2wt%,同时Ni含量为0.2wt%时,Ni-Pt/SAPO-11催化剂的正庚烷转化率提高至72%,C7异构体收率提高至60%。     

双层螺旋环超表面复合吸波体等效电路模型及微波损耗机制

针对超材料吸波频带窄的问题,采用金属螺旋环超表面与碳纤维吸波材料相复合的方式,设计了宽频高性能复合吸波体.研究发现,在碳纤维吸波材料中引入双层螺旋环超表面能显著增强吸收峰值和吸波带宽,且适当增加螺旋环初始线长和吸收层厚度有利于提高复合吸波体的吸波性能, 9.2—18.0 GHz频段的反射损耗均优于–10 dB (带宽达8.8 GHz),吸收峰值达–14.4 dB.利用S参数计算得到螺旋环-碳纤维复合吸波体的等效电磁参数和特征阻抗呈现多频点谐振特性,通过构建双层螺旋环超表面等效电路模型,定量计算了复合吸波体的电磁谐振频点,发现由等效电路模型获得的谐振频点计算值与仿真值基本相符,说明该复合吸波体多频点电磁谐振是宽频电磁损耗的主要机制.