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81.
研究利用分子筛、Nafion薄膜、低密度聚乙烯薄膜和囊泡作为微反应器控制有机光化学反应的方向,提高反应的选择性和可能性。在NaY沸石或低密度聚乙烯薄膜中,带有长烷基链或醚链的二芳基化合物光二聚只生成分子内的加成产物,而不生成分子间的加成产物,从而在底物浓度很大的情况下,高选择性地合成了大环化合物。通过控制底物和敏化剂分子在ZSM-5沸石、Nafion薄膜和囊泡中的分布高选择性地控制烯烃光敏氧化反应 相似文献
82.
首先分析讨论了低温感发射药燃烧过程 ,并在此基础之上建立了相应的物理模型 ;其次根据密闭爆发器定容燃烧曲线所建立的低温感发射装药燃气生成函数 ,建立了相应的数学模型 ;并据此对低温感发射装药弹道性能进行了模拟计算 ,发现计算结果与火炮实际射击结果基本相符。 相似文献
83.
芘四硫酸四钠盐/甲基紫精复合物光物理性质的研究 总被引:1,自引:0,他引:1
本文通过吸收光谱滴定和时间分辨瞬态吸收光谱对芘四硫酸四钠盐(pyrenetetrasulfonicacidtetrasodiumsalt,PyTS)/甲基紫精(methylviologen,MV2+)复合物在水溶液中的光物理性质进行研究.用甲基紫精滴定芘四硫酸四钠盐时,得到该复合物的组成成份是1∶1,反之,用芘四硫酸四钠盐滴定甲基紫精时,同样得到1∶1组成成份的复合物.该复合物的形成常数是2.4×106mol-1·L,当用光激发该复合物时,发现其中存在芘四硫酸四钠盐到甲基紫精的电子转移过程,并得到该过程的动力学模型. 相似文献
84.
本研究采用三硝基芴酮(TNF)高浓度掺杂的高分子树脂作为电荷传输层(CTL),ε-CuPc的高分子分散体系作为电荷产生层(CGL)制作了电子传输型正充电有机光导体,TNF质量分数为10~50%的高分子树脂薄膜在80℃下干燥8h再在常温下保存近半年队然处于完全透明状态,表明该掺杂体系比较好地解决了通常TNF与高分子之间相容性差异,难以实现高浓度掺杂的问题,实验结果表明这种光导体具有良好的表面电荷保持 相似文献
85.
Semiconducting In2O3 gas sensors have been fabricated by two different deposition techniques, i.e., spin-coating and screen-printing. In both cases the same starting material – sol-gel-prepared cubic In2O3 – was used for the deposition in order to ensure a better comparability of the different sensing layers. The morphology of the layers has been characterized using scanning electron microscopy (SEM) technique. The layers deposited by different methods show similar grain size and porosity. Furthermore, Dc electrical tests have been performed to analyze the sensing properties of the different gas sensors. Reducing gases (CO and propanal) as well as oxidizing gases (NO2 and ozone) were used as test gases in the background of dry and humidified synthetic air. All measurements were performed at several temperatures. It was found that the spin-coated and screen-printed layers show different sensing properties, i.e., screen-printed sensors showed higher sensor signals than spin-coated sensors for CO, propanal, and NO2. The most striking differences appeared in the detection of ozone. In this case, spin-coated sensors showed a higher performance than screen-printed sensors. Higher ozone concentrations led to saturation effects for the latter. 相似文献
86.
H. R. Manouchehri K. Hanumantha Rao K. S.E. Forssberg 《Particulate Science and Technology》2013,31(1):23-43
Abstract The tribo/contact electrification theory of materials is envisaged from the chemical Lewis acid-base concept and an attempt has been made to find a correlation between these two phenomena. The donor-acceptor/acid-base properties of apatite, calcite, feldspar, quartz and wollastonite mineral samples have been determined by electrokinetic studies in water and in different organic solvents having different donicity values. From the results, the donicity values for mineral samples were defined and the position of Fermi level in the forbidden gap energy was estimated. The charge acquired by a single mineral particle of varying sizes was determined after contacting with plate and cyclone type tribochargers made up of different materials. The work functions of the mineral samples were estimated. The results showed a good correlation between the physical tribo-electrification process and the chemical acceptor-donor property of the minerals. The results also demonstrate the feasibility of arranging the minerals into triboelectric series and thereby to predict their triboelectric charge characteristics and their separation behavior in an electric field with reference to a particular tribocharger medium. 相似文献
87.
88.
89.
Pauly M Dayen JF Golubev D Beaufrand JB Pichon BP Doudin B Bégin-Colin S 《Small (Weinheim an der Bergstrasse, Germany)》2012,8(1):108-115
A co-tunneling charge-transfer process dominates the electrical properties of a nanometer-sized \"slice\" in a nanoparticle network, which results in universal scaling of the conductance with temperature and bias voltage, as well as enhanced spintronics properties. By designing two large (10 μm) electrodes with short (60 nm) separation, access is obtained to transport dominated by charge transfer involving \"nanoslices\" made of three nanoparticles only. Magnetic iron oxide nanoparticle networks exhibit a magnetoresistance ratio that is not reachable by tunneling or hopping processes, thereby illustrating how such a size-matched planar device with dominant co-tunneling charge-transfer process is optimal for realizing multifunctional devices with enhanced change of conductance under external stimulus. 相似文献
90.
Xu Y Yang R Peng J Mikhailovsky AA Cao Y Nguyen TQ Bazan GC 《Advanced materials (Deerfield Beach, Fla.)》2009,21(5):584-588