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从全固态有机太阳能电池的历史发展情况和研究现状出发,对现阶段全固态有机太阳能电池的结构和性能作了介绍和评估,并从材料等方面分析了它们的优势和不足之处,讨论了全固态有机太阳能电池研究的未来发展。 相似文献
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卟啉类分子用作光敏剂,特别是用于癌症的早期诊断和光疗制剂已受到广泛的重视。其中血卟啉二乙酸酯(HPD)已用于临床。但对予HPD的光物理特性、分子活性和结构及状态间的关系尚缺乏系统的工怍。 相似文献
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By using the super-resolution near-field structure (super-RENS) method, the super-resolution recording marks are obtained practically by an organic photochromic diarylethene mask layer, under much lower recording laser power of 0.45roW. The size of recording marks is decreased by 60% (from 1.6μm to 0.7μm) for a diarylethene (photo-mode) recording layer by the optical detection method (limited by optical diffraction), or decreased by 97% (from 160Onto to 5Onto) for a heptaoxyl copper phthalocyanine (thermo-optical) recording layer, the latter is much smaller than the limitation of optical diffraction. In order to obtain a desirable result, a proper extent of photochemistry reaction in the mask layer is needed. Thus, the super-resolution recording marks can be obtained by adjusting the concentration of diarylethene in the mask layer, the recording laser power, and the moving speed of the sample disc. 相似文献
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以苯甲酸正丁酯的合成为案例,将以问题为基础的教学法(problem-based learning,PBL)应用于大学有机化学实验教学。实践表明,PBL教学法能够显著增强学生的实验兴趣,培养学生的综合实验能力,提高实验教学质量。 相似文献
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酞菁基态和激发态的计算 总被引:7,自引:1,他引:7
采用DFT方法在B3LYP/6-31G水平上得到了H2Pc(酞菁)的优化结构,并在此基础上采用TDDFT方法计算了激发态.通过与H2P(卟吩)、H2Pz(四氮卟吩)和H2TBP(四苯并卟啉)的比较,研究了苯并取代以及氮杂取代对H2Pc的分子轨道和激发态的影响,上述取代效应使得H2Pc的HOMO-1(132 b1u)和HOMO-3(130 b1u)轨道发生了翻转,氮杂取代的影响尤其明显.这两种取代都使得Q带振子强度增大,在这四种化合物中,H2Pc的振子强度最大.TDDFT计算结果与实验值符合得较好. 相似文献
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细胞色素P450s是用于生物合成的多功能催化剂.在P450催化循环中,需要两个电子来还原血红素铁,并通过电子转移途径(eTPs)激活随后的还原,该步骤是反应的限速步骤.本文重新设计了巨大芽孢杆菌P450 BM3的e TPs,大幅提高了其催化性能.通过在P450 BM3的e TP中引入芳香族氨基酸,“最佳”变体P2H02(A399Y/Q403F)的催化效率比P450 BM3野生型催化效率提高了12.9倍(kcat/KM从65.8 L mol-1 s-1提高到913.5 L mol-1 s-1).分子动力学模拟和电子传递分析表明,在辅因子FMN和血红素之间引入的芳香族氨基酸可以显著提高电子转移速率和酶催化性能.同时,在电子传递途径中引入酪氨酸可以保护P450的催化中心,使其避免被氧化性中间产物所破坏,从而提高其催化效率.此外,引入芳香族氨基酸的策略被证明对其他P450(如CYP116B3)同样有效,改造后的酶表现出显著提高的催化效率.综上,本文策略有望拓展到其... 相似文献
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Third-order optical nonlinearity of a novel copper phthalocyanine-ferrocene dyad is measured by femtosecond forward degenerate four-wave mixing (DFWM) technique at 800 nm. The second-order hyperpolarizability of the novel copper phthalocyanine-ferrocene dyad is measured to be 1.74 ×10^-30 esu. This large and ultrafast thirdorder optical nonlinear response is mainly enhanced by the formation of intramolecular charge-transfer which can enhance the delocalized movements of the large π-electrons in the molecules. 相似文献