Synthesis and photoluminescence, field emission properties of stalactite-like ZnS-ZnO composite nanostructures

Wurtzite stalactite-like quasi-one-dimensional ZnS nanoarrays with ZnO protuberances were synthesized through a thermal evaporation route. The structure and morphology of the samples are studied and the growth mechanism is discussed. X-ray diffraction (XRD) results show both the ZnS stem and the ZnO protuberances have wurtzite structure and show preferred [001] oriented growth. The photoluminescence and field emission properties have also been investigated. Room temperature photoluminescence result shows it has a strong green light emission, which has potential application for green light emitter. Experimental results also show that the stalactite arrays have a good field emission property, with turn-on field of 11.4 V/mu m, and threshold field of 16 V/mu m. The ZnO protuberances on the ZnS stem might enhance the field emission notably.

水溶液中残留四环素的光催化降解的实验研究

由于抗菌素具有抑制微生物生存的作用，因此，通常处理工业废水最有效的“生物氧化降解法”却无法用来有效处理四环素废液。本文简述了半导体光催化剂在紫外光照射下降解难溶或难分解有机物的基本原理，以半导体TiO2和ZnO粉粒为光催化剂进行催化降解四环素废液的实验，其结果表明；半导体TiO2光催化降解效果比较好；另外，H2O2可以作为TiO2光催化剂的助氧化剂来加快四环素的降解。总之，该实验结果有助于光催化剂的深入研究和太阳能光催化反应装置的设计，为今后在中小型制药厂和印染厂的废水处理奠定基础。

染料掺杂聚合物薄膜的激光行为研究

自20世纪60年代发展到现在，激光技术发展的速度十分惊人，应用的范围不断拓展，近年来随着有机/聚合物电致发光材料在有机发光二极管上的应用以及有机晶体管和有机太阳能电池的研制成功，科学家们开始了有机/聚合物材料放大自发发射和激光发射行为的研究。到目前为止，已经开发出了这种廉价、可以大面积成膜的、具有更广泛应用范围的有机/聚合物固体激光材料及光泵浦激光器。有机/聚合物激光器的出现不仅向传统激光理论提出了新的挑战，而且具有诸多潜在的应用价值。可以断言，在21世纪知识经济的大潮中，有机/聚合物激光器的研究必将推动传统学科的发展和新兴学科形成，也必将为人类带来巨大的经济效益。新的有机激光材料不断涌现、器件结构不断推陈出新、新的激发原理不断提出并得到修正已经成为有机/聚合物固体激光研究领域的三大特点。本论文进行了利用Förster能量传递对荧光染料DCJTB放大自发发射行为的优化、基于放大自发发射的红光染料DCJTB掺杂聚合物薄膜的白光发射、多孔结构对荧光染料放大自发发射行为的优化以及基于纳米结构的荧光染料DCJTB掺杂聚合物薄膜的激光行为等方面的研究工作，具体研究内容如下: 1、利用Förster能量传递理论，系统地研究了两种或三种染料共掺杂聚合物薄膜的放大自发发射（ASE）行为。研究表明，两种染料共掺杂显著改善了掺杂聚合物薄膜的ASE阈值、增益和损耗特性，而三种染料共掺杂，由于更多的Förster能量传递，使掺杂聚合物薄膜的ASE阈值、增益和损耗性能得到了进一步的改善。将Alq3和C545T两种绿光染料同时掺杂到DCJTB：PS中，通过利用Alq3和C545T同时的能量传递效应，已经使Alq3:C545T:DCJTB：PS薄膜的阈值、增益和损耗分别达到了0.007 mJ/pulse、52 cm-1和7 cm-1。 2、将红色荧光染料DCJTB掺杂到蓝色聚合物PFO中，通过控制DCJTB在PFO中的浓度，我们获得了具有放大自发发射的白光发射，当DCJTB在PFO的掺杂浓度为0.3%时显示了最好的白光ASE特性， 白光中DCJTB和PFO发射的阈值、增益和损耗分别达到了0.072 mJ pulse-1，0.035 mJ pulse-1；36.3 cm-1，22.35 cm-1和7.39 cm-1，15.88 cm-1。我们的结果表明，DCJTB掺杂聚合物PFO体系是实现ASE白光发射的有效方法，拓展了ASE的应用范围。 3、开发出了二维多孔SBA-15和三维TiO2反蛋白石光子晶体两种实现有机ASE有效发射的两种结构，通过利用有序结构的SBA-15的量子限域效应优化了蓝光染料C151的ASE阈值、增益和损耗特性，而通过利用三维TiO2反蛋白石光子晶体的量子限域效应，也使包埋其中的绿光染料C545T的ASE特性得到了明显改善。研究表明，无论是二维SBA-15多孔结构还是三维TiO2反蛋白石光子晶体结构，通过其量子限域效应都能很好地优化包埋其中的荧光染料的ASE特性，为进一步优化有机半导体的ASE特性提供了新的思路。 4、将聚苯乙烯纳米球分散到DCJTB:PS薄膜中和把DCJTB:PS薄膜旋涂在ZnO纳米柱阵列上两种方法，我们已经成功地研制出了多模随机有机激光发射器件。详细研究表明，多模随机有机激光发射特性显著地与聚苯乙烯纳米球的尺寸和浓度以及ZnO纳米柱的疏密程度密切相关，优化后的聚苯乙烯纳米球掺杂DCJTB:PS薄膜的阈值已经达到了0.06 mJ pulse-1cm-2，而ZnO纳米柱包埋DCJTB:PS薄膜的阈值达到了0.375 mJ pulse-1cm-2。我们的结果表明，聚苯乙烯纳米球和ZnO纳米柱都是实现随机有机激光的非常好的散射介质材料。

Preparation of self-supporting hierarchical nanostructured anatase/rutile composite TiO2 film

Via the combination of an electrospinning method with a hydrothermal reaction, a large-scale cedar-like hierarchical nanostructured TiO2 film with an anatase/rutile composite phase was fabricated.

Catalytic Dehydration of Ethanol to Ethylene on TiO2/4A Zeolite Composite Catalysts

TiO2/4A zeolite composite catalysts were prepared by coating TiO2 on 4A zeolite via liquid phase deposition. The TiO 2/4A zeolite composite catalysts wtih higher surface weak acidity and lower mediate strong acidity exhibit much better catalytic performance on ethanol dehydration to ethylene compared with 4A zeolite. It is suggested that the TiO2 promoter could improve the effective Lewis acidity of composite catalyst which consequently enhanced the catalytic performance.

High PL-efficiency ZnO nanocrystallites/PPV composite nanofibers

In this paper, we report for the first time on the synthesis of ZnO nanocrystallites in conjugated polymer (PPV) nanofibers by the coupling of the in situ/blend methods and electrospinning. These composite nanofibers were characterized by fluorescence microscopy, atomic force microscope (AFM), field emission scanning electron microscopy (FE-SEM), transmission electron microscopy (TEM), photoluminescence (PL) spectra, Fourier transform infrared (FT-IR) spectroscopy, and X-ray powder diffraction (XRD).

Excellent antimicrobial properties of mesoporous anatase TiO2 and Ag/TiO2 composite films

Optically transparent, crack-free, mesoporous anatase TiO2 thin films were fabricated. The Ag/TiO2 composite films were prepared by incorporating Ag in the pores of TiO2 films with an impregnation method via photoreduction. The as-prepared composite films were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), X-ray photoelectronic spectra (XPS) and N-2 adsorption. The release behavior of silver ions in the mesoporous composite film was also studied. Moreover, the antimicrobial behaviors of the mesoporous film were also investigated by confocal laser scanning microscopy.

A plasma sputtering decoration route to producing thickness-tunable ZnO/TiO2 core/shell nanorod arrays

We report a radio frequency magnetron sputtering method for producing TiO2 shell coatings directly on the surface of ZnO nanorod arrays. ZnO nanorod arrays were firstly fabricated on transparent conducting oxide substrates by a hydrothermal route, and subsequently decorated with TiO2 by a plasma sputtering deposition process. The core/shell nanorods have single-crystal ZnO cores and anatase TiO2 shells. The shells are homogeneously coated onto the whole ZnO nanorods without thickness change. This approach enables us to tailor the thickness of the TiO2 shell for desired photovoltaic applications on a one-nanometer scale. The function of the TiO2 shell as a blocking layer for increasing charge separation and suppression of the surface recombination was tested in dye-sensitized solar cells. The enhanced photocurrent and open-circuit voltage gave rise to increased photovoltaic efficiency and decreased dark current, indicating successful functioning of the TiO2 shell.

The effects of shell characteristics on the current-voltage behaviors of dye-sensitized solar cells based on ZnO/TiO2 core/shell arrays

The ZnO/TiO2 core/shell structure was formed through deposition of a TiO2 coating layer on the hydrothermally fabricated ZnO nanorod arrays through radio frequency magnetron sputtering. The effects of the TiO2 shell's characteristics on the current-voltage behaviors of the core/shell-based dye-sensitized solar cells (CS-DSSC) were investigated. As the rates of injection, transfer, and recombination of electrons of such CS-DSSC were affected significantly by the crystallization, morphology, and continuity of the TiO2 shells, the photovoltaic efficiency was accordingly varied remarkably. In addition, the efficiency was further improved by enhancing the surface area in the core/shell electrode.

薄膜材料对TiO2基薄膜激光损伤阈值的影响

abstract {The optical property, structure, surface properties (roughness and defect density) and laser-induced damage threshold (LIDT) of TiO₂ films deposited by electronic beam (EB) evaporation of TiO₂ (rutile), TiO₂ (anatase) and TiO₂ + Ta₂O₅ composite materials are comparatively studied. All films show the polycrystalline anatase TiO₂ structure. The loose sintering state and phase transformation during evaporating TiO₂ anatase slice lead to the high surface defect density, roughness and extinction coefficient, and low LIDT of films. The TiO₂ + Ta₂O₅ composite films have the lowest extinction coefficient and the highest LIDT among all samples investigated. Guidance of selecting materials for high LIDT laser mirrors is given.}

Surface characteristics of SiO2-TiO2 strip fabricated by laser direct writing

SiO2-TiO2 sol-gel films are deposited on SiO2/Si by dip-coating technique. The SiO2-TiO2 strips are fabricated by laser direct writing using all ytterbium fiber laser and followed by chemical etching. Surface structures, morphologies and roughness of the films and strips are characterized. The experimental results demonstrate that the SiO2-TiO2 sol-gel film is loose in Structure and a shrinkage concave groove forms if the film is irradiated by laser beam. The surface roughness of both non-irradiated and laser irradiated areas increases with the chemical etching time. But the roughness of laser irradiated area increases more than that of non-irradiated area under the same etching time. After being etched for 28 s, the surface roughness value of the laser irradiated area increases from 0.3 nm to 3.1 nm.