环二肽的自组装及其荧光性能

环二肽由两个氨基酸通过肽键环合形成,在氢键相互作用驱动下具有较强的自组装倾向.本工作研究了c-SF,c-SY,c-SH及c-DF等四种环二肽的自组装行为和组装体的荧光特性.实验结果表明,c-SH为无规卷曲而其他三种环二肽均采取β-sheet二级结构,且除c-SH未形成明显组装体外,其他三种环二肽均形成不同尺寸的纳米纤维.荧光光谱检测发现环二肽在不同波长的激发下存在多个不同的荧光发射峰;对于c-SH,侧链咪唑基官能团与Zn（II）配位可以增大荧光发射的强度;对于c-SY,侧链酚羟基的氧化也可以增强荧光强度.推测在氢键作用的驱动下环二肽分子可以逐个堆叠形成纳米纤维,自组装导致的分子聚集和分子的侧链结构均可使环二肽具有可调变的荧光性能.     

ZnO纳米棒阵列到纳米管结构的自转化机制及其在相变封装材料中的应用

In the emerging field of nanoscience, tubular structures have been attracting remarkable interest due to their well-defined geometry, high specific area, and exceptional physical and chemical properties. Among them, oriented ZnO tubular arrays are regarded as promising candidates for various applications such as optoelectronics, solar cells, sensors, field emission, piezoelectrics, and catalysis. Although template-directed and selective dissolution synthesizing strategies are commonly used to prepare ZnO nanotubes, repeatability and large scale preparation are still challenging. In this study, ZnO nanotube arrays were controllably prepared by tuning the hydrothermal parameters, without the use of any additives. The mechanism underlying the self-conversion of ZnO nanorods to nanotubes was comprehensively studied based on the surface energy theory. It has been proved that the metastable top surface of the ZnO nanorods dissolves preferentially to reach a stable state during the hydrothermal growth. The specific surface energy of different crystal faces of ZnO nanorods was calculated using molecular dynamics simulation. The top surface of the ZnO nanorod, the Zn-terminated [0001] face, demonstrated much higher surface free energy than did the lateral faces, which indicated that the self-dissolution of top face (002) is energetically favorable. The self-conversion behavior of ZnO nanorod arrays with different diameters was specifically investigated by adjusting the initial precursor concentration, density of the crystal seed layers, and growth time. The dissolution-crystallization equilibrium concentration, determined by crystal surface energy, was found to be a key factor for the formation of the tubular structure. Notably, the critical equilibrium conditions for the self-conversion of ZnO nanorods to nanotubes, including zinc ion concentration and pH, have been identified by studying parameters corresponding to the dissolution-crystallization equilibrium for the metastable top surface of the ZnO nanorods. The preparation of the ZnO nanotube arrays was successfully accelerated and simplified via two-step procedure: (1) preparation of ZnO nanorod arrays and (2) self-conversion of ZnO nanorods to nanotubes. The preparation method based on the self-conversion mechanism from rods to tubes for polar oxides is simpler and more easily controllable as compared to the reported methods involving variety of additives. Because of the advantages of adaptability to a wide range of substrates, excellent conducting properties, and filling ability, the prepared ZnO nanotube array films were used in encapsulating phase-change materials. The encapsulated phase-change material exhibited excellent heat storage/release properties and heat conductivities. This indicates the potential application of precision devices for temperature control.     

“对比实验+现象驱动的知识挖掘”在高分子材料合成创新实验教学中的尝试与运用

高分子材料合成实验是高分子专业的核心实验课程之一,如何建立实验课程与理论课程的有效衔接,加深学生对所学知识点的深入理解和活学活用,是本课程的主要目标。为此,笔者和教学团队提出：在同一个实验中改变某个实验变量,在教学班中引入对比实验,通过这些改变引起的不同实验现象和由此产生的材料性能的迥然差异,引导学生从现象出发,联系理论课堂知识进行深入分析。这种尝试有效改变了以往实验教学中所有教学班千篇一律的操作和几乎完全相同的实验现象与结果,有效激发了学生的主动性,提高了其分析问题、解决问题的能力。2年的实验教学反馈表明,“对比实验的引入”和“现象驱动的知识挖掘”帮助学生有效巩固了理论课堂的知识点,做到了活学活用。     

被称为“月亮”的元素——硒

介绍了硒元素的发现历程及其研究现状,重点介绍了含硒高分子的生物医用及自修复材料相关的研究。     

花球状二硫化钒的制备及其储锂研究

采用一步水热法并添加表面活性剂聚乙二醇400制备出花球状二硫化钒,利用X射线粉末衍射仪、场发射扫描电子显微镜等方法对产物的物相和形貌进行了表征. 观测生长过程发现花球状二硫化钒由若干六边形二硫化钒纳米片堆叠穿插组成,该花球状结构使材料拥有较高的比表面积及出色的结构稳定性. 将花球状二硫化钒用于锂离子电池正极材料测试,结果表明花球状二硫化钒在电压区间为1 ~ 3 V,电流密度为200 mA·g^-1时具有出色的循环稳定性且循环50周之后容量可达450 mAh·g^-1.     

KrF准分子激光退火氢化非晶碳化硅薄膜的晶化研究

介绍了利用KrF准分子脉冲激光对氢化非晶碳化硅(a-SiC∶H)薄膜进行激光退火以实现薄膜的结晶化。利用等离子增强化学气相沉积(PECVD)在单晶Si(100)衬底上制备a-SiC∶H薄膜, 再用不同能量密度的激光对薄膜样品进行退火。分析表明, 选用合适能量密度的激光退火能够实现a-SiC∶H薄膜的结晶化, 且结晶颗粒大小随着入射激光能量密度的增加而增大; 显微图表明当入射能量密度超过200 mJ/cm2时, 薄膜表面出现由热弹性波引起的表面波纹现象, a-SiC∶H薄膜结晶过程为液相结晶; 傅里叶红外谱(FTIR)表明随着入射能量密度增加, 薄膜中氢含量降低, Si-C峰增强并且峰位出现蓝移, 薄膜的结晶度提高。     

二氧化碳两相回路启动时的压力脉冲现象及其抑制

机械泵驱动的二氧化碳两相回路热控系统在热载荷启动时,由于蒸发段的液-汽相变需要形核而容易造成过热.本文介绍了这部分的启动实验,结果发现,采用长程毛细管结构的蒸发器对分布式热源进行集热时,在冷工况、高热载荷、低热流密度的情况下会因液一汽相变导致压力脉冲.实验还给出了简单有效的方法抑制这种脉冲的影响.     

The transient suppression for piezoelectric ceramic emission transducer

A transient suppression method for piezoelectric ceramic transducer is presented. By adding some special pedestal pulses to the original transmitted signal, the transient effects in the output of the transducer can be just precisely transmission by use of a narrowband transducer. canceled, thereby achieving the broadband The experimental results show that the transient responses of the sinusoid pulses and coded signals are suppressed successfully and the acoustic waveforms radiated into the surrounding water are improved significantly.     

光纤布拉格光栅自致啁啾效应的研究

根据耦合模理论,采用传输矩阵法分析了相位掩模法制作的光纤布拉格光栅的反射谱特性.设计了一种新的写制光纤光栅的光路,利用高斯激光光束写制出具有短波自致啁啾效应的切趾光栅(栅长0.015 m).对具有短波自致啁啾效应的光纤光栅进行了物理切割(剩余光栅的长度分别取0.007 m和0.0055 m),得到了一种新型的具有长波自致啁啾效应的光纤光栅.原本的自致啁啾光栅反射谱中旁瓣分布在短波长方向,而得到的新型自致啁啾光栅的反射谱中长波长方向的旁瓣更为明显.基于对光纤布拉格光栅自致啁啾效应的分析,提出一种新型类高斯切趾函数,以此函数对自致啁啾效应进行数值模拟,得到了与实验结果相一致的光谱图.