一维有机微纳米光功能材料研究进展

近年来,一维有机小分子微纳材料因为其新颖的光学性能和在未来小型化器件中的广泛应用,受到了人们越来越多的关注.相比于传统无机半导体材料,有机小分子材料具有结构多样性、功能可设计性、易大量制备、易机械加工等显著优势.本文将从一维有机小分子纳米材料的制备方法、形貌调控、光学性能(如光波导、受激发射、电致发光等),及其在光学器件上的应用出发,对近十年来的相关研究进展及成果进行总结和介绍.     

纳米微晶的制备及其性质研究

有机纳米微晶在纳米电子器件等方面具有应用前景, 已成为当前纳米科学的研究热点之一[1]. Nakanishi等[2,3]用再沉淀法制备出了有机纳米微晶, 但并未研究其生长机制和各种制备条件对生长过程的影响. 本文制备了不同粒径的纳米微晶, 研究了晶体结构和光谱性质的变化规律, 讨论了影响粒径大小和生长速率的因素, 为建立可行的有机微晶制备方法提供依据.     

担载材料对TiO2薄膜光催化活性的影响

TiO_2 nanocrystalline films were prepared on glass, ITO and p-Si substrates. Degradation of Rhodamine B was used to assess the photocatalytic activity of the films. It was found that photocatalytic activity of TiO2 films on ITO and p-Si are higher than that on glass, and the film grown on ITO is the best. In addition, crystalline phases and surface morphology of TiO_2films were also affected by different substrates. Surface Photovoltage Spectra was used to analyze surface states and energy levels of the films. Separation of photogenerate electrons and holes was promoted due to matching of the energy levels between TiO_2 films and ITO as well as p-Si. High photocatalytic activity was then obtained because more photogenerate electrons and holes took part in photocatalytic reaction on TiO_2 surfaces.     

Morphology Control over the Organic Nanoparticles of 1,3-Diphenyl-5-（9-anthryl）-2-pyrazoline

The organic nanoparticles of a blue-light-emitting molecule, 1,3-diphenyl-5-(9-anthryl)-2-pyrazuline, were prepared by reprecipitation method using acetonitrile as the solvent for the molecular precursor. Three morphologies, spherical, doughnut-shaped and cubic, could be observed on the silicon substrate forthe nanoparfides by the volume-controlled addition of acetonitrile. The evolution of particle morphology as a function of acetonitrile addition was attributed to the variation of the growth habits of the particles in the different environment. The nanoparticles exhibit the novel photoluminescence spectra as compared to those of monomer and the bulk crystals.     

多钼酸盐–柠檬酸复合膜的多色光致变色

制备了多钼酸盐–柠檬酸光致变色复合膜，紫外光照后发现不同摩尔比的复合膜呈现不同的颜色。当摩尔比为1.0，0.3和0.2时，变色后的薄膜分别显深蓝色，深黄褐色和淡海绿色。通过对薄膜的拉曼光谱分析证实呈现不同的颜色是由于在变色后的膜中生成了不同的物种。柠檬酸在光致变色过程中起着重要的作用, 在紫外光的照射下它作为空穴的捕获剂, 抑制了光生电子和空穴的复合, 使多钼酸盐呈现紫外光致变色现象。     

Novel Properties of Photochromic Spirooxazine Nanoparticles

The nanoparticles of a spirooxazine （SPO） and its photomerocyanine （PMC） were prepared through the reprecipitation method. Two distinct features were observed. One is that the decaying lifetime for PMC nanoparticles was 600 times of that for the dispersed molecules, and the other is that the fluorescence intensity of SPO nanoparticles was enhanced by 240 times of that of the dispersed monomer.     

TiO2纳米粒子膜表面性质的研究

ＴｉＯ_２纳米粒子膜在光催化降解大气和水中的污染物［１］、光电转换［２］、光致变色［３］等方面有广阔的应用前景,近年来受到了科学界的高度重视．研究表明,膜的表面性质对如上应用有着重要影响．本文采用等离子体化学气相沉积法（ＰＥＣＶＤ法）［４］制备了ＴｉＯ２的纳米粒子膜,分别采用ＴｉＣｌ４等离子体或Ｏ２等离子体处理膜表面,获得两种不同表面性质的ＴｉＯ２纳米粒子膜;并利用表面光电压谱（ＳＰＳ）和电场诱导表面光电压谱（ＥＦＩＳＰＳ）技术对膜的表面性质进行具体分析,探讨了其在光催化领域的可能应用．１实验部…     

光致变色WO3/4,4′-BPPOBp超晶格薄膜的制备

Layered WO3/4,4′-BPPOBp self-assemble mulitlayers (SAMs) films have been fabricated by polyelectrolytes (PEs) approach.The SAMs films with well-ordered superlattice structure and d-space of 0.695nm and good photochromic property have been studied by employing UV- visible,small angle XRD and XPS.     

V2O5电致变色薄膜的Raman光谱

近年来,通过向过渡金属氧化物薄膜注入Ｌｉ 制作可调节光透过率的电变色器件已越来越引起广泛的重视[1、2].由于Ｖ2Ｏ5薄膜的稳定性差,限制了它在实际中的应用.因此,为了获得变色效率高、稳定性和可逆性能好的Ｖ2Ｏ5薄膜,使用了多种制备方法,如磁控溅射法[3、6]、电化学沉积法[7、8]、溶胶凝胶法[9、10]、旋涂法[11、12]、真空蒸镀法[13、14]等.但是,无论那种方法都要解决Ｖ2Ｏ5本身在Ｈ2Ｏ或醇等的电解质溶液中电致变色时的溶解问题,通常采用控制薄膜的沉积温度或者退火处理来提高薄膜的电致变色性能[3、4、11].为了探明薄膜结构与电致变色…     

1,3-二苯基-2-吡唑啉纳米带的制备及其光波导性质

以1,3-二苯基-2-吡唑啉(DP)为目标化合物, 利用再沉淀方法, 以混合溶剂作为不良溶剂, 制备了形貌均一、宽度约2 μm、厚度200 nm和长度数十微米的一维纳米带状结构. 选区电子衍射结果证实, DP分子在纳米带中因为强的分子间π-π相互作用而沿着晶体[100]方向优势生长. 稳态光谱结果表明, DP纳米带具有不同于分子和体相材料的介观特性. 由于J-聚体在DP纳米带中优势形成, 其480 nm的发射峰与分子和体相材料相比分别红移了30和20 nm. 利用扫描近场光学显微镜进一步发现, 一维DP纳米带类似于天然的亚波长尺度谐振腔, 紫外激发DP分子发射的荧光被限域在DP纳米带中, 沿一维方向传导并在两端耦合输出.