13C-14N REAPDOR and 13C-2D theta-REDOR NMR on a blend of tri-p-tolylamine and bisphenol-A-polycarbonate

Solid-state NMR experiments are performed on amorphous blends of tri-p-tolylamine (TTA) and polycarbonate. Amines that are similar to TTA are blended with polycarbonates and used as photoconducting components in xerography. Because of its simple molecular structure, TTA is a charge-transporting molecule that is used as a model to understand charge transport in photoconducting materials. Charge transfer between amine molecules must depend on the separation and relative orientation between amine molecules. However, little information is known about the structural relationship between the amine molecules and the polymer host, presumably because of the difficulties associated with characterizing amorphous materials. We report the results of 13C-14N rotational-echo, adiabatic-passage, double-resonance (REAPDOR) and 13C-2D theta-rotational-echo, double-resonance (theta-REDOR) magic-angle spinning NMR experiments on a TTA/polycarbonate blend. The experiments provide information about the organization of TTA relative to polycarbonate.     

分子空位缺陷对环三亚甲基三硝胺含能材料几何结构、电子结构及振动特性的影响

含能材料中的微观缺陷是导致“热点”形成并相继引发爆轰的重要因素. 然而, 由于目前人们对材料内部微观缺陷的认识不足, 限制了对含能材料中“热点”形成微观机理的理解, 进而阻碍了含能材料的发展和应用. 为了洞悉含能材料内部微观缺陷特性及探索缺陷引发“热点”的形成机理, 利用第一性原理方法研究了分子空位缺陷对环三亚甲基三硝胺(RDX) 含能材料的几何结构、电子结构及振动特性的影响, 探讨了微观缺陷对初始“热点”形成的基本机理. 采用周期性模型分析了分子空位缺陷对RDX几何结构、电子能带结构、电子态密度及前线分子轨道的影响. 采用团簇模型分析了分子空位缺陷对RDX振动特性的影响. 结果发现, 分子空位缺陷的存在使其附近的N–N键变长, 分子结构变得松弛; 使导带中很多简并的能级发生分离, 电子态密度减小, 并使由N-2p和O-2p轨道形成的导带底和价带顶均向费米面方向移动, 降低了能带隙值, 增加了体系活性. 前线分子轨道及红外振动光谱的计算分析表明, 分子缺陷使最高已占分子轨道电荷主要集中在缺陷附近的分子上, 且分子中C–H键和N–N键能减弱. 这些特性表明, 分子空位缺陷的存在使体系能带隙变小, 并使缺陷附近的分子结构松弛, 电荷分布增多, 反应活性增强; 在外界能量激发下, 缺陷附近分子将变得不稳定, 分子中的C–H键或N–N键较易先发生断裂, 发生化学反应释放能量, 进而成为形成“热点”的根源.     

低维原子/分子晶体材料的可控生长、物性调控和原理性应用

本文介绍了高鸿钧课题组在物理所20年来的部分代表性工作.研究的主要方向为低维纳米功能材料的分子束外延可控制备、生长机制、物性调控及其在未来信息技术中的原理性应用.从材料的可控制备入手,结合第一性原理的理论计算,阐明材料生长机制和结构与物性的关系,进而实现物性调控和原理性应用.主要内容有:1)纳米尺度"海马"分形结构的形成及其生长机制;2)STM分辨率的提高及最高分辨Si(111)-7×7原子图像的获得;3)固体表面上功能分子的吸附、组装及其机制;4)稳定、重复、可逆的纳米尺度电导转变与超高密度信息存储;5)固体表面上单分子自旋态的量子调控及其原理性应用;6)原子尺度上朗德g因子的空间分辨及其空间分布不均匀性的发现;7)晶圆尺寸、高质量、单晶石墨烯的制备及原位硅插层绝缘化;8)几种新型二维原子晶体材料的可控构筑及其物性调控;9)"自然图案化"的新型二维原子晶体材料及其功能化.这些工作为低维量子结构的构造、物性调控及其原理性应用奠定了基础.     

Elastic energy-driven phase separation of phospholipid monolayers at the nematic liquid-crystal-aqueous interface

Experimental measurements and a thermodynamic model reveal that nematic elasticity can induce lateral phase separation of amphiphilic molecules assembled at interfaces between thermotropic liquid crystals (LCs) and immiscible aqueous phases. The morphologies of the phase-separated domains of amphiphiles induced by nematic elasticity are shown to be strongly dependent on the nature of the deformation of the LC. This study provides important insight into the physics that controls the ordering of molecules at interfaces of soft anisotropic materials, and identifies a new mechanism of phase separation at these interfaces.     

气相沉积技术在原子制造领域的发展与应用

随着未来信息器件朝着更小尺寸、更低功耗和更高性能方向的发展,构建器件的材料尺寸将进一步缩小.传统的"自上而下"技术在信息器件发展到纳米量级时遇到瓶颈,而气相沉积技术由于其能在原子尺度构筑纳米结构引起极大关注,被认为是最有潜力突破现有制造极限进而在原子尺度构造、搭建物质形态的"自下而上"方法.本文重点讨论适用于低维材料的...     

单个钛原子储氢能力和储氢机制的第一性原理研究

采用基于密度泛函理论的第一性原理方法研究了单个过渡金属钛原子吸附氢分子的物理机制. 研究表明,单个钛原子最多能吸附8对氢分子,吸附结构为对称的两个类金字塔型结构, 其平均吸附能为- 0.28 eV.通过计算轨道能级和差分电荷密度分布,分析决定吸附结构、 吸附能大小以及吸附氢分子数目的内在物理机制.研究表明,钛原子的4s电子转移到3d轨道上, 从而产生较强的极化电场,导致氢分子极化,钛原子通过静电极化作用吸附氢分子. 本文的研究将对设计高密度储氢材料有一定的指导作用.     

量子点的荧光特性在生物探针方面的应用

量子点具有传统有机荧光染料无可比拟的光学魅力,在生物医学及材料领域已引起广泛的兴趣,许多科学工作者在量子点用于生物学领域方面已经取得一定进展。目前,量子点最有前途的应用领域是在生物体系中作为荧光标记物。通过观察量子点标记分子与靶分子相互作用的部位,及其在活细胞内的运行轨迹,可能为信号传递的分子机制提供线索,从而为阐明细胞生长发育的调控及癌变规律提供直观依据。文章介绍了量子点研究生物大分子之间的相互作用、生物大分子荧光标记、细胞及生物组织的荧光标记与成像以及活体成像等方面的应用。并概述了纳米量子点作为生物荧光探针的应用前景以及亟待解决的问题。     

Application of organic materials in electronics

The development of electronics devices based on organic materials presents one of the most exciting challenges in XXI science. Already products based on organic thin films are in the market place, however the initial work in development of molecular-scale electronics has been done. The purpose of this review is to provide a general information about electronics devices incorporating organic materials and organic molecules acting as simple electronics devices.     

DFT study of the adsorption of 2, 3, 7, 8-tetrachlorodibenzofuran (TCDF) on vacancy-defected graphene doped with Mn and Fe

Dioxins are highly toxic to humans and environment, and developing the effective methods to control and detect the organic pollutant is particular important. Here we performed a density functional theory (DFT) study on the adsorption of 2, 3, 7, 8-tetrachlorodibenzofuran (TCDF) molecules on the modified graphene substrates. The results indicated that the introducing of vacancy-defect and dopants (Mn and Fe) significantly improves the sensitivity toward TCDF molecules. The impurity played a crucial role for interacting with TCDF molecules. Furthermore, the adsorption of TCDF induced band-gap open in defected graphene substrates, which could be seen as electric signal to detect TCDF pollutant. The present study is expected to be useful to explore effective materials to detect and remove dioxin pollutants based on graphene.     

锐钛矿型氧化物XO2（X=Ti,Sn,Zr,Ir）表面氧化性对NH3气体光学气敏传感特性的影响

摘要 金属氧化物气敏传感材料一直是当今的热门研究课题,锐钛矿相金属氧化物XO2（X=Ti,Sn,Zr,Ir）是具有传感特性的常见材料。光学气敏效应是指气体分子吸附在气敏传感材料上,与表面氧空位发生氧化还原反应,由于光学性质发生改变而检测出气体的成分和浓度,因此,氧化还原反应的强弱是反应传感性能的核心原因。本文采用密度泛函理论(DFT)体系下广义梯度近似(GGA)第一性原理平面波超软赝势方法,分析和计算了含氧空位的锐钛矿相XO2（X=Ti,Sn,Zr,Ir）表面特性。通过以NH3为目标分子,研究分子表面吸附引起的氧化还原反应的机理,分析不相同的氧化物表面的几何结构、吸附能、态密度、差分电荷密度、电荷布居、电荷转移、光学性质等。研究发现：目标分子稳定吸附在氧化物表面后改变材料光学性质。SnO2表面对分子的吸附能最大,IrO2表面与分子的吸附距离最小。NH3分子与表面间存在电荷转移,其转移电子数目大小为:IrO2＞TiO2＞ZrO2＞SnO2,氧化物表面氧化性的大小为:IrO2氧空位＞TiO2氧空位＞ZrO2氧空位＞SnO2氧空位;比较吸收谱和反射谱发生变化最为明显的是TiO2表面。结论,在可见光范围内,波长在400~530nm时,SnO2表面光学气敏传感效应更好。而在530~760nm范围TiO2表面光学气敏传感效应更好。     

表面增强拉曼散射检测分析物分子的研究进展

表面增强拉曼散射(SERS)技术具有高效,灵敏,无损检测等特点,能实现对分析物分子的极低浓度检测,被广泛应用于痕量分析领域.在生产和生活中,有些毒性物质或非法添加剂被人体摄入或长期接触后,在体内不断累积,最终导致中毒或者组织器官发生病变;环境中过量的有害物质残留,由于其本身的毒性或者使菌株和害虫产生抗药性而造成的生态系...     

Theoretical study of the optical,electronic, and charge-transfer properties of 1,2,4,5-tetrakis(phenylethynyl)benzene derivatives for solar cell applications

A series of 1,2,4,5-tetrakis(phenylethynyl)benzene derivatives has been investigated at the CAM-B3LYP/6-31G(d) and TD-CAM-B3LYP/6-31?+?G(d,p) levels to design materials with high performance with respect to suitable frontier molecular orbitals (FMOs), broad absorption spectra, and better and balanced charge-transfer properties. The calculated results reveal that the molecule possessing benzene has the largest torsion angle of these derivatives. Different branches have a slight influence on the distributions of the FMOs of the molecules. 2-vinyl-thieno[3,2-b]thiophene branches display a small HOMO–LUMO gap corresponding to red shifts of the absorption spectra. These molecules are potential ambipolar charge-transport materials under the appropriate operating conditions.     

溶液酸碱性对腺嘌呤分子吸附构型影响的SERS光谱研究

核酸碱基是构成核酸的基本单元,有关核酸碱基结构的研究是核酸研究工作的重要基础。本研究借助于表面增强拉曼散射技术,对不同pH值条件下腺嘌呤分子在金表面的吸附构型及其变化特征进行了研究。研究结果表明,随着溶液酸性的增强、腺嘌呤分子质子化程度的增大,腺嘌呤分子在金表面的吸附态倾向于由通过氨基和嘌呤环上7位的氮原子作为结合点的直立吸附转变为分子平躺的吸附形式。这一转变过程通过腺嘌呤的环呼吸全对称伸缩振动的特征谱峰其强度有规律的显著变化而得以表征。有关这一谱峰的增强作用可以通过表面增强拉曼散射的电荷传递(CT)机理来加以说明。     

Energy landscape of clathrate hydrates

Clathrate hydrates are nanoporous crystalline materials made of a network of hydrogen-bonded water molecules (forming host cages) that is stabilized by the presence of foreign (generally hydrophobic) guest molecules. The natural existence of large quantities of hydrocarbon hydrates in deep oceans and permafrost is certainly at the origin of numerous applications in the broad areas of energy and environmental sciences and technologies (e.g. gas storage). At a fundamental level, their nanostructuration confers on these materials specific properties (e.g. their ??glass-like?? thermal conductivity) for which the host-guest interactions play a key role. These interactions occur on broad timescale and thus require the use of multi-technique approach in which neutron scattering brings unvaluable information. This work reviews the dynamical properties of clathrate hydrates, ranging from intramolecular vibrations to Brownian relaxations; it illustrates the contribution of neutron scattering in the understanding of the underlying factors governing chemical-physics properties specific to these nanoporous systems.     

光缔合产生超冷分子及其光谱测量

超冷分子的产生对于量子信息、分子物理和分子化学具有重要的意义。本文通过介绍超冷分子的研究进展,主要分析了光缔合产生超冷分子的特点与物理机制,详细介绍了光缔合产生冷分子过程中的光谱测量方法。     

Photoinduced deformations of beams, plates, and films

Photoresponsive solids such as nematic photoelastomers can undergo large deformations induced by light absorbed into rodlike molecules which bend and disrupt liquid crystal order. Significant variation of photoabsorption through the solid leads to nonuniform elastic deformations such as bending of beams and plates and pitting of layers. Such effects are also found in the presence of inhomogeneous thermal or swelling fields in solids or gels. We analyze the small deflection limit of these problems and show that beams made of these materials can have two elastically neutral planes, and that plates of these materials have a typical saddle shape. We also give a scaling analysis of the elasticity of photoinduced mounds and pits and speculate on their applications.     

Statistical analysis of spectra of single impurity molecules and dynamics of disordered solids: I. Distributions of linewidths,moments, and cumulants

A review of recent results of studying the low-temperature dynamics of a disordered solid-state medium that were obtained by the method of single molecule spectroscopy (SMS) is presented. The studies were carried out with the use of the new approach of the statistical analysis of a large number of spectra of single molecules embedded into a medium under study as a microscopic spectral probe. The measurements were performed in the range 2–7 K. The use of SMS allowed us to avoid the information losses connected with the averaging over an ensemble of impurity molecules that is inherent in conventional spectral methods. For the example of the system studied (amorphous polyisobutylene doped with molecules of tetra-tert-butylterrylene), it was shown experimentally that, at low temperatures, the spectra of single impurity molecules in disordered media obey the Levy statistics. New microscopic information on the interaction of two-level systems and quasi-local low-frequency vibrational modes of the matrix with impurity molecules in a disordered medium was obtained.     

软 X射线共振非弹性光散射及其应用

软 X射线共振非弹性光散射是近年来随着高亮度第三代同步辐射出现而发展起来的光散射光谱技术 ,可以用于对多原子构成的分子、凝聚态物质进行位置选择的价电子态结构的研究。与 X射线光电子能谱 ( XPS)或紫外光电子能谱 ( UPS)相比 ,这一光谱方法由于测量样品激发后产生的散射 X射线 ,因而不仅可以获得表面的原子分子信息 ,而且可以用于研究样品体内或掩埋薄层的原子分子。同时这一方法的共振特性使得其可以进行灵敏的元素选择测量。本文将介绍这一光散射光谱技术及其在原子分子物理、表面物理及凝聚态物理中的应用     

电子俘获材料的研究现状及在红外检测方面的应用

电子俘获材料在辐射剂量测定、光信息处理、光存储、红外光检测等许多技术领域具有广泛的应用。本文详细介绍了电子俘获材料的发光原理、材料种类、制备方法以及研究现状,并针对该材料在红外光检测方面的应用,提出了在室温下该材料存在红外光检测上限的观点。针对电子俘获材料存在性质不稳定及在制备过程中需用到硫化类材料易造成污染等问题,建议进一步改进材料制备方法。最后,文中指出玻璃陶瓷类电子俘获材料会有很好的发展前景,并对该种材料未来的发展前景进行了展望。