干旱对不同冬小麦旗叶光合产物供应能力的影响

研究干旱对小麦旗叶光合产物供应能力的影响,揭示小麦抗旱高产的生理机制,为提高小麦的抗旱能力及高产稳产提供理论依据。【方法】在防雨池栽培条件下,以旱地冬小麦品种长武134(抗旱性强)和水地冬小麦品种陕253(抗旱性弱)为试材,以适宜水分处理为对照(CK,土壤含水量为田间持水量的70%～75%),研究干旱处理(土壤含水量为田间持水量的50%～55%)对不同冬小麦旗叶光合产物供应速率(净光合速率和蔗糖合成能力)和供应持续期的影响。【结果】与对照相比,干旱处理降低了冬小麦灌浆中后期旗叶净光合速率,缩短了净光合速率高值持续期(PAD),其中长武134降幅较小,净光合速率较高;干旱处理提高了冬小麦灌浆初期旗叶的蔗糖磷酸合成酶(SPS)活性,其中长武134增幅较大,且在灌浆中后期依然能保持相对较高的蔗糖供应能力;干旱处理缩短了冬小麦叶绿素含量缓降期(RSP),提高了丙二醛(MDA)含量,加速了旗叶的衰老,缩短了光合产物的供应持续期,其中长武134受干旱影响较小;干旱处理降低了冬小麦灌浆中后期主茎穗粒质量积累量及其速率,其中长武134降幅较小。【结论】干旱条件下,抗旱品种长武134旗叶在灌浆中后期可维持较高的光合产物...

立构规整型聚(3-烷基噻吩)的结晶形态与结构研究

立构规整聚(3-烷基噻吩)是具有高功能的聚合物光电材料，被广泛用于有机光电器件的制备与集成。本论文利用一种新的结晶方法，即溶剂辅助结晶，得到了梳状刚性链高分子RR-P3BT毫米级的新晶体及其晶胞参数。同时，还得到了RR-P3BT的分子链在这种新晶体中的堆砌方式。首次直接证明了刚性链高分子RR-P3BT的晶体生长方式是层状生长。又采用溶液等温结晶的方法，得到了RR-P3BT的多种晶体。包括Whisker晶体，平行四边形片晶，小长方形片晶和棒状单晶。并得出了这些晶体的晶胞参数和分子链的堆砌方式。通过溶液等温结晶也得到了RR-P3HT的多种晶体。包括Whisker晶体，长方形片晶，平行四边形片晶和六边形片晶。并得出这些晶体的晶胞参数和分子链的堆砌方式。

光子晶体的微腔特性

为了设计一种高品质因子的光子晶体微腔和研究单缺陷光子晶体微腔谐振模波长随晶格常数的变化规律,使用时域有限差分法（difference time-domain method）和基于Baker算法的Padé近似方法计算了半导体材料上空气孔阵列光子晶体微腔的谐振模波长和品质因子.得到的新型光子晶体微腔的品质因子达246510,单缺陷光子晶体微腔模波长随晶格常数α和孔半径r的近似为线性变化关系

Fabrication of an AlAs/In0.53Ga0.47As/InAs Resonant Tunneling Diode on InP Substrate for High-Speed Circuit Applications

A high performance AlAs/In0.53 Ga0.47 As/InAs resonant tunneling diode （RTD） on InP substrate is fabricated by inductively coupled plasma etching. This RTD has a peak-to-valley current ratio （PVCR） of 7. 57 and a peak current density Jp = 39.08kA/cm^2 under forward bias at room temperature. Under reverse bias, the corresponding values are 7.93 and 34.56kA/cm^2 . A resistive cutoff frequency of 18.75GHz is obtained with the effect of a parasitic probe pad and wire. The slightly asymmetrical current-voltage characteristics with a nominally symmetrical structure are also discussed.

Applicatioo of Pade Approximation in Simulating Photonic Crystals

To save finite-difference time-domain(FDTD) computing time, several methods are proposed to convert the time domain FDTD output into frequency domain. The Padé approximation with Baker's algorithm and the program are introduced to simulate photonic crystal structures. For a simple pole system with frequency 160THz and quality factor of 5000,the intensity spectrum obtained by the Padé approximation from a 28-item sequence output is more exact than that obtained by fast Fourier transformation from a 220-item sequence output. The mode frequencies and quality factors are calculated at different wave vectors for the photonic crystal slab from a much shorter FDTD output than that required by the FFT method,and then the band diagrams are obatined. In addition,mode frequencies and Q-factors are calculated for photonic crystal microcavity.

Achieving perpendicular alignment of rigid polythiophene backbones to the substrate by using solvent-vapor treatment

The rigid backbone of the poly(3-butylthiophene) molecule adopts a perpendicular orientation with respect to the substrate by using a solvent-vapor treatment (see figure). Small and closely contacting spherulites instead of conventional whisker-like crystals are achieved. This could be utilized to improve charge-carrier mobility particularly in the direction normal to the film plane by designing and constructing thick crystalline domains in the functional layer.

Enhanced electrical conductivity of highly crystalline polythiophene/insulating-polymer composite

Poly(3-butylthiophene) (P3BT)/insulating-polymer composites with high electrical conductivity have been prepared directly from the solution. These composites exhibit much higher conductivity compared to pure P3BT with the same preparation method provided that P3BT content is higher than 10 wt %. Morphological studies on both the pure P3BT and the composites with insulating polymer show that P3BT highly crystallizes and develops into whisker-like crystals. These nanowires are homogeneously distributed within the insulating polymer matrix and form conductive networks, which provide both extremely large interface area between conjugated polymer and insulating polymer matrix and highly efficient conductive channels through out the whole composite. In contrast, the conductivity enhancement of P3HT/PS composite is not so obvious and drops down immediately with increased PS content due mainly to the absence of highly crystalline whisker-like crystals and much larger scale phase separation between the components. The results presented here could further illuminate the origin of conductivity formation in organic semiconducting composites and promote applications of these polymer semiconductor/insulator composites in the fields of organic (opto-)electronics, electromagnetic shielding, and antistatic materials.

DETERMINATION OF CYSTEINE AND REDUCED GLUTATHIONE IN HUMAN PLASMA BY LIQUID-CHROMATOGRAPHY WITH PULSED AMPEROMETRIC ELECTROCHEMICAL DETECTION USING A PLATINUM-PARTICLES MODIFIED GLASSY-CARBON ELECTRODE

An assay procedure utilizing pulsed amperometric detection at a platinum-particles modified electrode has been developed for the determination of cysteine and glutathione in blood samples following preliminary separation by reversed-phase liquid chromatography. A chemically modified electrode (CME) constructed by unique electroreduction from a platinum-salt solution to produce dispersed Pt particles on a glassy carbon surface was demonstrated to catalyze the electo-oxidation of sulfhydryl-containing compounds: DL-cysteine (CYS), reduced glutathione (GSH). When used as the sensing electrode in flow-system pulsed-amperometric detection (PAD), electrode fouling could be avoided using a waveform in which the cathodic reactivation process occurred at a potential of - 1.0 V vs. Ag/AgCl to achieve a cathodic desorption of atomic sulfur. A superior detection limit for these free thiols was obtained at a Pt particle-based GC electrode compared with other methods; this novel dispersed Pt particles CME exhibited high electrocatalytic stability and activity when it was employed as an electrochemical detector in FIA and HPLC for the determination of those organo-sulfur compounds.

波动方程偏移速度分析

On the subject of oil and gas exploration, migration is an efficacious technique for imagining structures underground. Wave-equation migration (WEM) dominates over other migration methods in accuracy, despite of higher computational cost. However, the advantages of WEM will emerge as the progress of computer technology. WEM is sensitive to velocity model more than others. Small velocity perturbations result in grate divergence in the image pad. Currently, Kirrchhoff method is still very popular in the exploration industry for the reason of difficult to provide precise velocity model. It is very urgent to figure out a way to migration velocity modeling. This dissertation is mainly devoted to migration velocity analysis method for WEM: 1. In this dissertation, we cataloged wave equation prestack depth migration. The concept of migration is introduced. Then, the analysis is applied to different kinds of extrapolate operator to demonstrate their accuracy and applicability. We derived the DSR and SSR migration method and apply both to 2D model. 2. The output of prestack WEM is in form of common image gathers (CIGs). Angle domain common image gathers (ADCIGs) gained by wave equation are proved to be free of artifacts. They are also the most potential candidates for migration velocity analysis. We discussed how to get ADCIGs by DSR and SSR, and obtained ADCIGs before and after imaging separately. The quality of post stack image is affected by CIGs, only the focused or flattened CIGs generate the correct image. Based on wave equation migration, image could be enhanced by special measures. In this dissertation we use both prestack depth residual migration and time shift imaging condition to improve the image quality. 3. Inaccurate velocities lead to errors of imaging depth and curvature of coherent events in CIGs. The ultimate goal of migration velocity analysis (MVA) is to focus scattered event to correct depth and flatten curving event by updating velocities. The kinematic figures are implicitly presented by focus depth aberration and kinetic figure by amplitude. The initial model of Wave-equation migration velocity analysis (WEMVA) is the output of RMO velocity analysis. For integrity of MVA, we review RMO method in this dissertation. The dissertation discusses the general ideal of RMO velocity analysis for flat and dipping events and the corresponding velocity update formula. Migration velocity analysis is a very time consuming work. Respect to computational convenience, we discus how RMO works for synthetic source record migration. In some extremely situation, RMO method fails. Especially in the areas of poorly illuminated or steep structure, it is very difficult to obtain enough angle information for RMO. WEMVA based on wave extrapolate theory, which successfully overcome the drawback of ray based methods. WEMVA inverses residual velocities with residual images. Based on migration regression, we studied the linearized scattering operator and linearized residual image. The key to WEMVA is the linearized residual image. Residual image obtained by Prestack residual migration, which based on DSR is very inefficient. In this dissertation, we proposed obtaining residual migration by time shift image condition, so that, WEMVA could be implemented by SSR. It evidently reduce the computational cost for this method.