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还原温度对超细K-Co-Mo催化剂合成低碳醇性能的影响 总被引:2,自引:0,他引:2
用溶胶-凝胶法合成了K-Co-Mo催化剂.样品经不同温度还原后,用于低碳醇的合成.XRD和HRTEM结果表明,样品是超细粒子,粒子尺寸为2~5nm.考察了催化剂的还原温度和反应条件对催化剂性能的影响.实验结果表明,还原温度对催化剂的活性有较大的影响,最佳还原温度为500℃.最佳反应温度范围为310~330℃.升高压力和空速可以提高醇的收率和选择性.在空速14400h-1,压力6.0MPa和温度310℃的条件下,醇的选择性为55.8%,收率为520.0g/(kg·h),MeOH/C2+OH为0.27.催化剂稳定性良好,在200h的寿命实验中,活性基本不变.与文献中催化剂相比,超细K-Co-Mo催化剂对合成醇具有较高的活性和选择性,尤其是对C2+OH的合成明显高于其他合成醇催化剂体系. 相似文献
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Dr. Longhai Zhang Prof. Tong Wei Dr. Zimu Jiang Prof. Zhuangjun Fan 《Chemistry (Weinheim an der Bergstrasse, Germany)》2019,25(19):5022-5027
To optimize the cycle life and rate performance of lithium-ion batteries (LIBs), ultra-fine Fe2O3 nanowires with a diameter of approximately 2 nm uniformly anchored on a cross-linked graphene ribbon network are fabricated. The unique three-dimensional structure can effectively improve the electrical conductivity and facilitate ion diffusion, especially cross-plane diffusion. Moreover, Fe2O3 nanowires on graphene ribbons (Fe2O3/GR) are easily accessible for lithium ions compared with the traditional graphene sheets (Fe2O3/GS). In addition, the well-developed elastic network can not only undergo the drastic volume expansion during repetitive cycling, but also protect the bulk electrode from further pulverization. As a result, the Fe2O3/GR hybrid exhibits high rate and long cycle life Li storage performance (632 mAh g−1 at 5 A g−1, and 471 mAh g−1 capacity maintained even after 3000 cycles). Especially at high mass loading (≈4 mg cm−2), the Fe2O3/GR can still deliver higher reversible capacity (223 mAh g−1 even at 2 A g−1) compared with the Fe2O3/GS (37 mAh g−1) for LIBs. 相似文献
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近年来人们对材料及由材料制备的元件提出了高可靠性、多功能等要求。为了达到这种要求,人们从多种途径进行了探索,其中,对现有材料进行掺杂就是很有效的方法之一[1,2]。本文报道对BaTiO3超细微粉进行Eu3+的有效掺杂并对其进行了物性表征。1实验部分1... 相似文献
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卤化银微晶体是一种典型的与成像材料相关的无机微粒子。一个多世纪以来,它所特有的光敏性能使之在成像科学领域中一直占据着重要的地位。近二十年来,纳米粒子化学和物理的迅速发展对于推动成像科学技术前进产生了不可低估的影响。纳米级超细颗粒卤化银的制备与性能研究十分活跃,它不仅对于深入认识卤化银成像机理具有重要意义,而且在形成新的特殊照相材料如超高解像力照相材料等方面起着关键性作用。超细颗粒卤化银的制备方法基本上可概括为两种,即直接反应法与间接反应法。前者是在某种保护性介质中同时注入银盐与卤盐,使之直接反应… 相似文献
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Xiang Wang GuiCun Qi XiaoHong Zhang JianMing Gao BingHai Li ZhiHai Song JinLiang Qiao 《中国科学:化学(英文版)》2012,55(5):713-717
In terms of the classical theory in textbooks, the two components with phase separation in a binary polymer blend will, depending on their compatibility, have their respective Tg get closer or remain in their original values. According to the classical theory, the Tg of plastic component shall remain unchanged or move toward the lower Tg of rubber component in a rubber/plastic blend. However, ultra-fine full-vulcanized powdered rubber (UFPR) with a diameter of ca. 100 nm can simultaneously increase the toughness and the Tg of plastics, which is abnormal and is difficult to explain by classical theory. In this feature article, the abnormal behavior and its mechanism are discussed in detail. 相似文献
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