Improving the Performance of TIPS-pentacene Thin FilmTransistors via Interface Modification

Understanding the structure-performance relationship is crucial for optimizing the performance of organic thin film transistors. Here, two interface modification methods were applied to modulate the thin film morphology of the organic semiconductor, 6,13-bis(triisopropylsilylethynyl)pentacene(TIPS-pentacene). The resulting different film morphologies and packing structures led to distinct charge transport abilities. A substantial 40-fold increase in charge carrier mobility was observed on the octadecyltrichlorosilane(OTS)-modified sample compared to that of the transistor on the bare substrate. A better charge mobility greater than 1 cm²·V^-1·s^-1 is realized on the p-sexiphenyl(p-6P)- modified transistors due to the large grain size, good continuity and, importantly, the intimate π-π packing in each domain.     

硅酸镁锂的有机改性及对Cr(Ⅵ)的吸附特性

采用水热法合成了硅酸镁锂(Laponite), 然后利用十六烷基三甲基溴化铵(CTMAB)对其进行有机改性, 研究了改性后的有机硅酸镁锂(CTMABL)对Cr(Ⅵ)的吸附特性. 结果表明, 改性后样品的比表面积和孔容积变小而平均孔径增大. CTMABL样品的d₍₀₀₁₎值从改性前的1.23 nm增加到1.79 nm, 表明CTMAB进入Laponite层间. 随着溶液pH值的提高, CTMABL对Cr(Ⅵ)的吸附效率明显下降; pH<8.5时, CTMABL颗粒表面电势为正, 能够与Cr(Ⅵ)阴离子发生静电吸引从而提高吸附效率. 随着固液比增加, 对Cr(Ⅵ)的去除效率迅速上升, 当固液比达到4 g/L后去除效率趋于稳定. 离子强度对Cr(Ⅵ)吸附过程的影响不明显. CTMABL对Cr(Ⅵ)的吸附符合准二级动力学模型, 吸附传质速率受膜扩散和颗粒内扩散过程共同影响. 等温吸附过程符合Langmuir模型, 热力学分析结果表明吸附过程是一个自发的吸热反应. 综合分析认为表面配合作用是主要的吸附机制, 同时静电引力在吸附过程中起到了促进作用.     

High Efficiency Four-Wave Mixing with Relaxation Coupling of Longitude-Optical Phonons in Semiconductor Quantum Wells

The time-dependent analysis of four-wave mixing(FWM) has been performed in four-level double semiconductor quantum wells(SQWs) considering the cross-coupling of the longitude-optical phonons(LOP) relaxation. It is shown that both the amplitude and the conversion efficiency of the FWM field enhance greatly with the increasing strength of cross-coupling of LOP relaxation. Interestingly, a double peak value of the conversion efficiency is obtained under a relatively weak single-photon detuning considering the LOP coupling. When the detuning becomes stronger,the double peaks turn into one peak appearing at the line respect to the about equality two control fields. The results can be interpreted by the effect of electromagnetically induced transparency and the indirect transition. Such controlled high efficiency FWM based on the cross-coupling LOP may have potential applications in quantum control and communications.     

不同物料堆肥腐熟程度的紫外-可见光谱特性表征

水溶性有机物(DOM)紫外-可见吸收光谱特性是评价堆肥腐熟度重要方法之一,但由于紫外-可见吸收光谱指标众多,单指标评价具有较大局限性。因此,本研究开展了影响堆肥腐熟度的关键紫外-可见光谱特性指标识别,并采用化学剂量学方法评价了不同来源堆肥腐熟程度。与传统单一物料评价相比,优选的评价指标及评价方法更具普适性。不同物料堆肥过程中DOM紫外-可见光谱特性分析结果表明,SUVA₂₅₄和SUVA₂₈₀值呈明显的增加趋势,E₂₅₀/E₃₆₅和E₄/E₆值呈相反的趋势,而A_226～400,S_275～295,S_350～400值则在堆肥末期变化显著。相关分析表明不同紫外-可见光谱参数(E₂/E₄和E₂₃₅/E₂₀₃除外)彼此之间相关性显著;主成分分析显示,DOM紫外-可见光谱指标A_226～400, SUVA₂₅₄, S_350～400, SUVA₂₈₀, S_275～295可作为堆肥腐熟程度关键影响评价指标。在此基础上,采用筛选的特性指标对堆肥末期进行聚类分析,可将九种不同来源堆肥分为两大类,第一类为猪粪、鸡粪、污泥、秸秆、园林垃圾、果蔬及生活垃圾等腐熟程度较低的堆肥;第二类为杂草和厨余腐熟程度较高的堆肥。     

一种大功率LED散热系统模糊控制器设计

基于当前的COB封装LED芯片,分析了芯片的热阻模型,推导出发光结在理想温度下工作时的基板温度。针对大功率LED存在的散热问题,基于课题组双进双出射流冲击水冷散热系统,设计了一种模糊控制器,选取温度变化和温度变化率为控制输入量,并对各控制输入量的范围设定进行了说明。根据设计的控制器进行程序编写,下载到控制芯片中进行实际验证,在20℃环境温度下,芯片基板温度最终维持在35.5~36.5℃之间,保证了灯具正常、稳定工作,为大功率LED散热系统提供了一种控制器设计方案,具有一定的实际意义。     

微/纳米ZnO绒球的制备及其在自然光下催化降解有机染料性能

以谷氨酸氟硼酸(GluBF₄)离子液体水溶液为反应介质,以物质的量比为1:6的二水合醋酸锌[Zn(Ac)₂·2H₂O]和氢氧化钠为原料,室温下制备前驱体,再微波辅助加热制备了纳米氧化锌粉体,获得了纳米结构微米尺寸纳米ZnO绒球.利用场发射扫描电镜(FESEM)、X射线衍射(XRD)、比表面(BET)、能量色散谱(EDS)等对产物进行了表征.所得产物为六方晶系纤锌矿结构,粉体粒径20.4 nm,绒球比表面积为28.3 m²·g^-1,产物纯度较高,收率95.3%.同时探讨了纳米ZnO绒球生成的可能机理.该纳米材料在日光下显示较高的光催化活性和稳定性.分别配制浓度为10 mg·L^-1的100 mL甲基橙(MO)和甲基紫(MV)水溶液, 30 mg纳米氧化锌为光催化降解催化剂,太阳光激发下5 h脱色率分别达到74.3%和96.9%;溶液总有机碳(TOC)含量随光降解的进行缓慢下降;光催化剂重复利用5次,催化剂形貌不变、颜色不变,质量基本未发生变化.     

MgF2改性Alq3纳米复合材料的制备及其对OLED抗老化性能的提高

提高有机电致发光器件(OLED)的稳定性和寿命是其市场化应用中需要解决的关键问题.本文从提高发光材料自身的稳定性出发,以Mg(CF₃COO)_2-x(CH₃COO)_x溶胶为前驱体,将其与8-羟基喹啉铝(Alq₃)混合浓缩成糊状后, 300 ℃真空烧结,经过MgF₂的生成和Alq₃的相变后,形成了一系列Mg含量不同的具有超结构ε相的纳米复合材料Alq₃-MgF₂.研究结果表明,相比于纯Alq₃, Alq₃-MgF₂纳米复合材料制备的OLED可以很好地保持Alq₃的发光特性,同时,其抗老化性能得到显著提高.特别是, Mg(CH₃COO)₂投料量为Alq₃的5% (摩尔分数)时,所得Alq₃-MgF₂纳米复合材料制备的器件抗老化性能最优,在空气中老化72 h,最大发光亮度仍保持在起始值的93.5%;而Alq₃制备的OLED在空气中老化24 h后基本失活.     

Multi-component Hydrogen-bonding Organic Salts Formed from 1-Methylpiperazine with Aromatic Carboxylic Acids: Synthons Cooperation and Crystal Structures

1-Methylpiperazine was employed to crystallize with 2,4-dihydroxybenzoic acid and 1,8-naphthalene acid, affording two multi-component hydrogen-bonding salts [(C₅H₁₄N₂)²⁺·(C₇H₅O₄)_2-·H₂O](1) and [(C₅H₁₄N₂)²⁺(C₁₂H₆O₄)²ˉ·2H₂O](2). These two forms of salts are both monoclinic systems with space group P2₁/c(14). The lattice parameters of salts 1 and 2 are a=1.32666(10) nm, b=0.90527(7) nm, c=1.67107(13) nm, β=103.125(1)° and a=1.4950(2) nm, b=0.75242(15) nm, c=1.6563(3) nm, β=92.834(2)°, respectively. Expected classical hydrogen bonds N―H…O and O―H…O appear in the chargetransfer salts, and asymmetric units of these two forms both contain water molecules which play a significant role in building novel supramolecular architectures. Robust hydrogen-bond interactions between 1-methylpiperazine and aromatic acid provide sufficient driving force to direct the two crystals to three-dimensional structures. Weak interactions C―H…O emerging in salts 1 and 2 further enhance their crystal structures. As a consequence, hydrogen-bonding interactions in these compounds afford diverse 3D net supramolecular architectures. Thermal stability of these compounds was investigated by thermogravimetric analysis(TGA).     

Dipyrrin-based Complexes for Solution-processed Organic Solar Cells

Three dipyrrin-containing metal complexes and a boron dipyrromethene(BODIPY)-containing complex were designed and synthesized. The photophysical properties, electrochemical behaviours and photovoltaic performance were extensively investigated. Density functional theory calculations were also performed on those complexes. These complexes, together with electron-acceptor [6,6]-phenyl-C71-butyric acid methyl ester, were utilized for the fabrication of solution-processed bulk heterojunction solar cells as the electron-donor materials. The more efficient electron acceptor BODIPY segment renders a lower energy gap and a relatively better photovoltaic conversion efficiency of 0.58%. These results prove that BODIPY segment has a great potential for constructing efficient organic solar cell materials.     

Pyrene Derivate Functionalized with Acetylene for Organic Field Effect Transistors

A new X-shaped compound (SiPy) functionalized with acetylene bonds in the 1-, 3-, 6-, and 8-positions of the pyrene core has been synthesized by Sonogashira coupling reactions. Its photophysical, thermal, and organic field effect transistor (OFET) properties as well as the film morphologies have been investigated. SiPy exhibits high stability which is evidenced by thermal gravimetric analysis. The atomic force microscopy images reveal that the morphol-ogy of thin films depends on the substrate temperature. The film OFET devices based on SiPy were constructed and exhibited p-type performances.