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61.
由于化石能源的大量开采和利用造成CO2过度排放,从而导致严重的温室效应和气候环境问题,给人类生存带来极大威胁.CO2选择加氢反应可以将CO2催化加氢生成高附加值的CO产物.与其他的CO2转化反应策略相比,该过程中H2的消耗更少,成为可有效处理及转化CO2的手段之一.同时,应尽可能抑制CO2深度加氢以及甲烷的产生,研制及设计具有高CO选择性的新型高效催化剂及其构效关系的分析仍十分重要.据报道,负载型贵金属基催化剂的使用有利于H2分子的活化,具有优异的催化活性,因而广泛应用于多种催化反应中.然而,贵金属催化剂实现工业应用的最大挑战是资源的限制及其高额的成本.近年来,由贵金属制备的负载型亚纳米团簇受到广泛关注,主要包括如Au,Pt,Pd,Ru等贵金属,可有效应用于多相催化反应.人们还致力于提高负载型亚纳米团簇的分散度,促进催化剂活性位点的有效暴露,有利于大幅度提高催化剂的有效利用率.本文采用共沉淀法成功制备了超高分散的负载型Ru基催化剂,通过CO2选择加氢-程序升温表面反应(TPSR)和质谱联用技术测试了催化剂性能,发现CO2加氢反应生成CO选择性达100%.采用XRD,BET和TEM等方法对催化剂结构进行表征,并结合H2-TPR,H2-TPD和XPS等表征结果深入探讨了催化剂构效关系,并提出了针对该催化剂体系较为合理的反应模型.在CO2选择加氢反应的催化性能测试中,2.50%Ru/FeOx催化剂对目标产物CO选择性仅为41%; 随着Ru负载量降低至0.25%和0.1%时,CO选择性明显提高至80%; 当进一步降低Ru含量至0.01%时,CO选择性接近100%,且表现出优异的反应速率.在360 oC时,0.01%Ru/FeOx催化剂的相对反应速率为7.71 molCO2molRu-1 min-1,是2.50%Ru/FeOx催化剂相对反应速率的154倍.H2-TPR结果表明,贵金属Ru可以明显促进载体FeOx的还原,并产生丰富的氧空位,进而促进CO2的吸附、活化.而且CO2选择加氢TPSR结果显示,目标产物CO的起始生成温度总是滞后于原料H2的初始活化温度,与H2-TPR结果及文献报道的CO2选择加氢反应机理一致.通过H2-TPD深入理解H2在催化剂表面的活化和氢溢流现象,以及Hads与不同催化剂之间的相互作用力,0.01%Ru/FeOx催化剂相对较高的H2脱附峰温度表明,该样品中Ru与Hads具有极强的相互作用力,相对抑制了Hads与COads深入加氢生成CH4,从而提高了CO选择性,而2.50%Ru/FeOx催化剂的情况则与此相反.本文提出了从Hads吸附作用力强弱来考虑CO2选择加氢反应选择性的新思路,同时为设计CO2选择加氢制高附加值CO的高催化反应速率、高CO选择性的高分散Ru基催化剂提供了一种经济简易的催化剂设计思路. 相似文献
62.
Li-Long Dang Ting-Ting Zhang Ting-Ting Li Tian Chen Ying Zhao Chen-Chen Zhao Lu-Fang Ma 《Molecules (Basel, Switzerland)》2022,27(6)
Herein, a new Zn-MOF material, [Zn(L1)(L2)], 1, was built successfully through a one-pot solvothermal method. The 3D MOF structure was determined by Single X-ray diffraction analysis, IR, and elemental analysis. A series of PXRD tests of 1 after being immersed in different solvents and pH solutions demonstrated the good stability of 1. Interestingly, this material displayed high catalytic activity for the visible-light-driven hydrogen generation under the illumination of white LED in pure water or a mixture of DMF and H2O without additional photosensitizers and cocatalysts. Besides, the studies also showed that the catalytic activity changed constantly as well as the solvent ratio adjustment of DMF and H2O from 4:6 to 2:8. Additionally, the catalytic activity reached the best value (743 μmol g−1 h−1) when the solvent ratio was 4:6. The heterogeneous nature and recyclability of the MOF catalyst, as well as several factors that affect the catalytic activity, were investigated and described in detail. Moreover, the photocatalytic mechanism for the hydrogen generation of 1 was also proposed based on the fluorescence spectra and UV-vis absorption. 相似文献
63.
Femtosecond electron pulse compression by using the time focusing technique in ultrafast electron diffraction 下载免费PDF全文
We present a new model of an electron gun for generating subrelativistic femtosecond (fs) electron pulses. The basic idea is to utilize a dc acceleration stage combined with a time focusing region, the time focusing electrode generates an electron energy chirp for bunching at the target. Without considering the space charge effects, simulations of the electron gun were carried out under the conditions of different dc voltages and various slopes of the voltage added on the time focusing electrode. Tracing and simulating large numbers of photoelectrons through Monte-Carlo and finite difference methods, the electron pulses with 1 ps can be compressed to 55 fs, which will allow significant advances in the field of ultrafast diagnosis. 相似文献
64.
In this paper, we study the quasi-neutral limit of compressible Euler-Poisson equations in plasma physics in the torus Td. For well prepared initial data the convergence of solutions of compressible Euler-Poisson equations to the solutions of incompressible Euler equations is justified rigorously by an elaborate energy methods based on studies on an λ-weighted Lyapunov-type functional. One main ingredient of establishing uniformly a priori estimates with respect to λ is to use the curl-div decomposition of the gradient. 相似文献
65.
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67.
Alignment carbon nanotubes (ACNTs) were synthesized on silicon substrate coated with Ni catalyst film and Ta buffer layer by plasma-enhanced hot filament chemical vapor deposition using CH4, NH3, and H2 as the reaction gas, and they were investigated by scanning electron microscopy and transmission electron microscopy. It is found that the diameter of the bamboo-structured ACNTs is increased from 62 to 177 nm when the substrate temperature was changed from 626 to 756 °C. Their growth rate is enhanced by the substrate temperature in a range of 626-683 °C and it is reversely reduced with the substrate temperature after the substrate temperature is over 683 °C. Beginning with wetting phenomenon, the effects of the substrate temperature on the structure and growth rate of the ACNTs are analyzed. 相似文献
68.
Longbo Li Andy T. Tek Rudy J. Wojtecki Rebecca Braslau 《Journal of polymer science. Part A, Polymer chemistry》2019,57(17):1821-1835
Internal plasticization of polyvinyl chloride (PVC) using thermal azide‐alkyne Huisgen dipolar cycloaddition between azidized PVC and electron‐poor acetylenediamides incorporating a branched glutamic acid linker resulted in incorporation of four plasticizing moieties per attachment point on the polymer chain. A systematic study incorporating either alkyl or polyethylene glycol esters provided materials with varying degrees of plasticization, with depressed Tg values ranging from ?1 °C to 62 °C. Three interesting trends were observed. First, Tg values of PVC bearing various internal plasticizers were shown to decrease with increasing chain length of the plasticizing ester. Second, branched internal plasticizers bearing triethylene glycol chains had lower Tg values compared to those with similar length long‐chain alkyl groups. Finally, thermogravimetric analysis of these internally plasticized PVC samples revealed that these branched internal plasticizers bearing alkyl chains are more thermally stable than similarity branched plasticizers bearing triethylene glycol units. These internal tetra‐plasticizers were synthesized and attached to PVC‐azide in three simple synthetic steps. © 2019 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2019 , 57, 1821–1835 相似文献
69.
Dr. Andy Hernández Montoto Dr. Antoni Llopis-Lorente Mónica Gorbe José M. Terrés Dr. Roberto Cao-Milán Dr. Borja Díaz de Greñu Dr. María Alfonso Dr. Javier Ibañez Prof. María D. Marcos Dr. Mar Orzáez Dr. Reynaldo Villalonga Prof. Ramón Martínez-Máñez Dr. Félix Sancenón 《Chemistry (Weinheim an der Bergstrasse, Germany)》2019,25(36):8471-8478
Janus gold nanostar–mesoporous silica nanoparticle ( AuNSt–MSNP ) nanodevices able to release an entrapped payload upon irradiation with near infrared (NIR) light were prepared and characterized. The AuNSt surface was functionalized with a thiolated photolabile molecule ( 5 ), whereas the mesoporous silica face was loaded with a model drug (doxorubicin) and capped with proton-responsive benzimidazole-β-cyclodextrin supramolecular gatekeepers ( N 1 ). Upon irradiation with NIR-light, the photolabile compound 5 photodissociated, resulting in the formation of succinic acid, which induced the opening of the gatekeeper and cargo delivery. In the overall mechanism, the gold surface acts as a photochemical transducer capable of transforming the NIR-light input into a chemical messenger (succinic acid) that opens the supramolecular nanovalve. The prepared hybrid nanoparticles were non-cytotoxic to HeLa cells, until they were irradiated with a NIR laser, which led to intracellular doxorubicin release and hyperthermia. This induced a remarkable reduction in HeLa cells viability. 相似文献
70.
Qianxi Dang Lanzhen Hu Jiaqiang Wang Qunhua Zhang Mengmeng Han Simeng Luo Yanbin Gong Can Wang Prof. Qianqian Li Prof. Zhen Li 《Chemistry (Weinheim an der Bergstrasse, Germany)》2019,25(28):7031-7037
Organic luminescence with different forms continues to be one of the most active research fields in science and technology. Herein, an ultra-simple organic molecule (TPA-B), which exhibits both mechanoluminescence (ML) and photo-induced room-temperature phosphorescence (RTP) in the crystalline state, provides an opportunity to reveal the internal mechanism of ML and the dynamic process of photo-induced RTP in the same molecule. Through the detailed investigation of photophysical properties together with crystal structures, the key role of molecular packing and intermolecular interactions was highlighted in the luminescence response by mechanical and light stimulus, affording efficient strategies to design potential smart functional materials with multiple luminescence properties. 相似文献