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排序方式: 共有1944条查询结果,搜索用时 31 毫秒
51.
采用溶剂热法制备出铜铟铝硒Cu(In,Al)Se2 (CIASe)粉末,然后滴涂铜铟铝硒CIASe浆料获得前驱体薄膜,最后通过硒化/硫化过程制备出铜铟铝硒CIASe和铜铟铝硒硫CIASeS薄膜.通过XRD、SEM、XRF及光吸收等表征,发现所制备的薄膜为单相的黄铜矿结构,具有(112)择优取向.同时,在使用硫元素替代硒之后,薄膜的XRD主峰向高的2θ角度漂移,多孔薄膜也变得更加致密.薄膜带隙值也增加到更为合适的范围,从1.21 eV增加到1.33 eV,这也说明了硫化过程有利于提高CIASeS薄膜的质量. 相似文献
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53.
SnS2–graphene nanocomposites are synthesized by a hydrothermal method, and their application as anodes of lithium-ion batteries has been investigated. SnS2 nanosheets are uniformly coating on the surface of graphene. SnS2–graphene nanocomposites exhibit high cyclability and capacity. The reversible capacity is 766 mAh/g at 0.2C rate and maintains at 570 mAh/g after 30 cycles. Such a high performance can be attributed to high electron and Li-ion conductivity, large surface area, good mechanical flexibility of graphene nanosheets and the synergetic effect between graphene and SnS2 nanostructures. The present results indicate that SnS2–graphene nanocomposites have potential applications in lithium-ion battery anodes. 相似文献
54.
基于凝胶柱色谱分离技术研究了单分散的单壁碳纳米管(SWCNTs)在不同化学结构多孔多糖凝胶中的流动特性以及对金属型(m-)/半导体型(s-)SWCNTs分离的影响.通过比较SWCNTs在一系列不同孔径的葡聚糖Sephacryl凝胶中的流动行为,发现减小孔径尺寸能够增强s-SWCNTs与凝胶之间的吸附作用力,使大直径的m-SWCNTs快速地流过凝胶颗粒,而选择性地保留了小直径的s-SWCNTs.进一步发现多糖凝胶化学结构比孔径尺寸在SWCNTs的m/s分离中起着更重要的作用.当基于葡聚糖结构的Sephacryl凝胶中的氨基结构被琼脂糖结构所取代时,如Superdex 200和Sepharose 2B凝胶会增强它们与SWCNTs之间的作用力,使SWCNTs的保留时间延长,降低了s-SWCNTs的选择性和纯度.此外,即使拥有与Sephacryl S100类似的孔径范围,当Sephacryl凝胶中的氨基被疏水环氧丙烷基团取代时,葡聚糖凝胶Sephadex G100与SWCNTs的作用力很弱,导致所有SWCNTs快速流动,无法实现SWCNTs的m/s分离.因而,我们认为凝胶孔径和化学结构共同影响并调控了SWCNTs的m/s分离的选择性、纯度以及分离效率. 相似文献
55.
Qingyun Zheng Tian Wang Guo-Chao Chu Chong Zuo Rui Zhao Xin Sui Linzhi Ye Yuanyuan Yu Jingnan Chen Xiangwei Wu Wenhao Zhang Prof. Haiteng Deng Prof. Jing Shi Dr. Man Pan Prof. Yi-Ming Li Prof. Lei Liu 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2020,132(32):13598-13603
Triazole-based deubiquitylase (DUB)-resistant ubiquitin (Ub) probes have recently emerged as effective tools for the discovery of Ub chain-specific interactors in proteomic studies, but their structural diversity is limited. A new family of DUB-resistant Ub probes is reported based on isopeptide-N-ethylated dimeric or polymeric Ub chains, which can be efficiently prepared by a one-pot, ubiquitin-activating enzyme (E1)-catalyzed condensation reaction of recombinant Ub precursors to give various homotypic and even branched Ub probes at multi-milligram scale. Proteomic studies using label-free quantitative (LFQ) MS indicated that the isopeptide-N-ethylated Ub probes may complement the triazole-based probes in the study of Ub interactome. Our study highlights the utility of modern protein synthetic chemistry to develop structurally and new families of tool molecules needed for proteomic studies. 相似文献
56.
采用超声分散法制备出纳米氮化铝/聚四氟乙烯(AlN/PTFE)复合材料,使用线性往复摩擦磨损试验机在大气和干燥氩气中对比测试了该复合材料摩擦学性能. 结果表明:大气环境下,纳米氮化铝质量分数为5%时可以将聚四氟乙烯磨损率降低4个数量级[1×10?7 mm3/(N·m)]. 而在同样摩擦测试条件的干燥氩气环境中,使用纳米氮化铝只能将聚四氟乙烯磨损率降低2个数量级[1×10?5 mm3/(N·m)]. 利用三维轮廓仪、扫描电镜、红外光谱仪和光电子能谱仪对金属对偶表面形成转移膜的形貌和化学成分进行分析. 研究发现:大气环境的摩擦过程中,聚四氟乙烯与环境水氧发生摩擦化学反应生成了富含羧酸盐的转移膜,显著提高了复合材料耐磨性能;干燥氩气中,水氧的缺失使复合材料无法在摩擦中生成富含羧酸盐的转移膜,影响材料耐磨性能的进一步提高. 相似文献
57.
Yi-Si Feng Hong-Xia Qi Wei-Cheng Wang Yu-Feng Liang Hua-Jian Xu 《Tetrahedron letters》2012,53(23):2914-2917
A novel synthetic protocol for 2-aminophenyl sulfide derivatives via the reactions of benzothiazole with aryl iodides was reported for the first time. The reactions were catalyzed by CuCl with tetrabutylammonium hydroxide as the base and water as the solvent without ligand at 50 °C or room temperature. A variety of aryl iodides underwent the C–S cross-coupling reaction with benzothiazole to afford smoothly the corresponding products in excellent yield. 相似文献
58.
The rheology of F-actin networks has attracted a great attention during the last years. In order to gain a complete understanding of the rheological properties of these novel materials, it is necessary the study in a large deformations regime to alter their internal structure. In this sense, Schmoller et al. (2010) showed that the reconstituted networks of F-actin crosslinked with α-actinin unexpectedly harden when they are subjected to a cyclical shear. This observation contradicts the expected Mullins effect observed in most soft materials, such as rubber and living tissues, where a pronounced softening is observed when they are cyclically deformed.We think that the key to understand this stunning effect is the gelation process. To define it, the most relevant constituents are the chemical crosslinks – α-actinin –, the physical crosslinks – introduced by the entanglement of the semiflexible network – and the interaction between them. As a consequence of this interaction, a pre-stressed network emerges and introduces a feedback effect, where the pre-stress also regulates the adhesion energy of the α-actinin, setting the structure in a metastable reference configuration. Therefore, the external loads and the evolvement of the trapped stress drive the microstructural changes during the cyclic loading protocol. In this work, we propose a micromechanical model into the framework of nonlinear continuum mechanics. The mechanics of the F-actin filaments is modelled using the wormlike chain model for semiflexible filaments and the gelation process is modelled as mesoscale dynamics for the α-actinin and physical crosslink. The model has been validated with reported experimental results. 相似文献
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60.
Hollow onion-like graphitic nanoshell structured Fe–N/C nanofiber (Fe–N/CNF) catalyst with porous morphology was prepared by heat treating as-spun polyacrylonitrile/ferrous oxalate composite nanofibers in ammonia atmosphere for the first time. These porous electrocatalyst showed both excellent catalytic activity for oxygen reduction reaction (ORR) and much better stability than commercial Pt/C catalyst in acid solution. The Fe–N/CNF catalysts developed here could be easily fabricated on a large scale and show high potential in proton exchange membrane fuel cells (PEMFCs). 相似文献