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41.
研究了呋喃与H2S在不同温度下焙烧的Al2O3催化剂上反应制备噻吩。实验结果表明,Al2O3催化剂的焙烧温度为550℃时,在液态空速0.2h-1、n(H2S)∶n(呋喃)=10、反应温度500℃的条件下,目标产物噻吩的收率达到90.2%。采用X射线衍射和BET方法对不同温度下焙烧的Al2O3催化剂的晶相结构和比表面积进行了表征,表征结果显示,随焙烧温度的升高,Al2O3的晶相结构由γ-相向α-相转变,同时比表面积由226.13m2/g急剧减小到2.22m2/g。采用吡啶吸附傅里叶变换红外光谱对Al2O3催化剂的表面酸性进行了表征,并结合实验数据对反应机理进行了探讨,得出Al2O3催化剂表面上L酸中心是呋喃与HS反应制备噻吩的催化活性位。  相似文献   
42.
选用Cr-Mo钢经400℃,20 MPa,104 h氢暴露后进行拉伸、断裂韧性和疲劳试验.结果表明:Cr-Mo钢已经发生了氢腐蚀,氢蚀使Cr-Mo钢强度、塑性和断裂韧性均有所降低,也使断裂机制由韧窝型转变为解理脆性.氢蚀使疲劳裂纹扩展行为也发生了变化,疲劳裂纹扩展速率增加,ΔKth降低.Cr-Mo钢氢蚀后,随应力比增加,疲劳裂纹扩展门槛值大幅度降低.  相似文献   
43.
44.
以芋头淀粉为原料、过氧化氢为氧化剂,在碱性介质中制备了低氧化度芋头淀粉。经扫描电镜分析,氧化芋头淀粉颗粒呈多角状,平均颗粒直径18.09μm。X-射线衍射确定其晶体形貌为A型结构。流变学分析其糊化温度为79.5℃、特性粘度为2.505 Pa.s,粘弹性曲线显示其粘性大于弹性。其塑性测定结果符合Croass模型,稠度指数为85.56 s。  相似文献   
45.
钯合金膜分离氢同位素具有分离能力强、氚滞留量小以及装置设计简单等优点,是一种很有发展潜力的氢同位素分离方法,但受膜及泵输系统等因素的制约,目前仍处于概念设计阶段。文中针对级联分离建立了考虑返混的近似模型。模型表明:各级的分流比和分离系数相同时,对含氚体积分数0.065%的氢同位素混合气体,在0.2分流比(体积比),分离系数为2.5时,经过3级富集和4级贫化就可以得到含氚体积分数1.5%的产品和含氚体积分数0.000 5%的贫料;相同分离系数下,分流比较大时分离系统的规模较小。  相似文献   
46.
Highly dispersed,high performance Pt and PtRu catalysts,supported on multiwalled carbon nanotubes(CNTs),were prepared by a high pressure organic colloid method.The particle sizes of the active components were as small as 1.2 nm for Pt and 1.1 nm for PtRu,and the active Pt surface areas were 295 and 395 m2/g,respectively.The catalysts showed very high activities toward the anodic oxidation of methanol,evaluated by cyclic voltammetry,being up to 4 times higher than that of commercial Johnson Matthey Hispec 20...  相似文献   
47.
This study reveals the mechanism of the dual‐emission properties for asymmetrical diphenylsulfone and diphenylketone derivatives. A series of asymmetrical diphenylketone and diphenylsulfone derivatives with dual‐emission properties are designed and synthesized. By single crystal structure analyses, various photophysical studies, and 2D 1H–1H NOSEY NMR studies, the lower energy emission bands in the dual‐emission spectra are successfully assigned to hydrogen‐bonding‐assisted intermolecular charge transfer emission. The emission properties of these compounds can easily be tuned in both solid state and solution state by destroying or strengthening the intermolecular hydrogen bonding. In addition, thermally activated delayed fluorescence characteristics for the intermolecular charge transfer emissions are also observed. The control of the intermolecular and intramolecular charge transfers serves as the basis for the generation of the white‐light emission. For compound CPzPO, nearly pure white‐light emission with CIE coordinates of (0.31, 0.32) is easily achieved by precipitation from dichloromethane and hexane mixed solvent system. These results clearly give an insight into the dual‐emission properties and provide a rational strategy for the design and synthesis of single‐component white‐light‐emitting materials and mechanoresponsive light‐emitting materials.  相似文献   
48.
As a prerequisite for a sustainable energy economy in the future, designing earth‐abundant MoS2 catalysts with a comparable hydrogen evolution catalytic performance in both acidic and alkaline environments is still an urgent challenge. Decreasing the energy barriers could enhance the catalysts' activity but is not often a strategy for doing so. Here, the first kinetic‐oriented design of the MoS2‐based heterostructure is presented for pH‐universal hydrogen evolution catalysis by optimizing the electronic structure based on the simultaneous modulation of the 3d‐band‐offsets of Ni, Co, and Mo near the interface. Benefiting from this desirable electronic structure, the obtained MoS2/CoNi2S4 catalyst achieves an ultralow overpotential of 78 and 81 mV at 10 mA cm?2, and turnover frequency as high as 2.7 and 1.7 s?1 at the overpotential of 200 mV in alkaline and acidic media, respectively. The MoS2/CoNi2S4 catalyst represents one of the best hydrogen evolution reaction performing ones among MoS2‐based catalysts reported to date in both alkaline and acidic environments, and equally important is the remarkable long‐term stability with negligible activity loss after maintaining at 10 mA cm?2 for 48 h in both acid and base. This work highlights the potential to deeply understand and rationally design highly efficient pH‐universal electrocatalysts for future energy storage and delivery.  相似文献   
49.
Electrocatalytic two-electron reduction of oxygen is a promising method for producing sustainable H2O2 but lacks low-cost and selective electrocatalysts. Here, the Chevrel phase chalcogenide Ni2Mo6S8 is presented as a novel active motif for reducing oxygen to H2O2 in an aqueous electrolyte. Although it has a low surface area, the Ni2Mo6S8 catalyst exhibits exceptional activity for H2O2 synthesis with >90% H2O2 molar selectivity across a wide potential range. Chemical titration verified successful generation of H2O2 and confirmed rates as high as 90 mmol H2O2 gcat−1 h−1. The outstanding activities are attributed to the ligand and ensemble effects of Ni that promote H2O dissociation and proton-coupled reduction of O2 to HOO*, and the spatial effect of the Chevrel phase structure that isolates Ni active sites to inhibit O O cleavage. The synergy of these effects delivers fast and selective production of H2O2 with high turn-over frequencies of ≈30 s−1. In addition, the Ni2Mo6S8 catalyst has a stable crystal structure that is resistive for oxidation and delivers good catalyst stability for continuous H2O2 production. The described Ni-Mo6S8 active motif can unlock new opportunities for designing Earth-abundant electrocatalysts to tune oxygen reduction for practical H2O2 production.  相似文献   
50.
1,4-bis(2-cyano styryl)benzene (2-CSB) crystal with cyano substituent groups introduced to the terminal phenyl rings of distyrylbenzene (DSB) has been prepared and its luminescence efficiency could be as high as ∼55%. Based on the analyses of cyclic voltammetry and crystal structure, cyano substituents not only lower the LUMO level but also result in a change of the packing mode from the herringbone arrangement to the face-to-face slipped π stacking motif. Then field-effect transistors (FETs) based on high-quality 2-CSB crystals grown by the physical vapor transport method have been fabricated and the highest hole and electron mobilities were measured as 0.66 and 0.29 cm2/Vs, which enhanced the corresponding values of DSB crystal by up to one and two orders of magnitude, respectively. 2-CSB crystal simultaneously combined the high luminescence and the well-balanced mobility is expected to be of interest for the fundamental research of organic light-emitting devices.  相似文献   
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