共查询到20条相似文献,搜索用时 140 毫秒
1.
采用共沉淀法和金属有机配合物固载法,分别制备了钴氧化物负载的纳米金催化剂.考察了该催化剂对CO低温氧化反应的催化活性及其制备方法和制备条件,如焙烧温度和时间、金的负载量、活性组分前体、沉淀剂的滴加顺序等因素对催化性能的影响.结果表明:严格控制制备条件.上述两种方法制备的3%Au/Co3O4催化剂,对CO氧化反应都具有很高的催化活性,可分别于-22℃和-5℃将空气中1%的CO完全转化为CO2.:XRD和TEM测试结果显示.催化剂上的金颗粒大小在10nm范围内,载体为适度结晶的四氧化三钴. 相似文献
2.
3.
二氧化钛纳米管由于其特殊的结构和优异的性能,在很多领域都有着重要的应用前景。阳极氧化法是制备二氧化钛纳米管的一种主要方法。近来,在阳极氧化法中使用有机电解液来制备二氧化钛纳米管取得了非常显著的效果。与传统的水溶性电解液相比,其深宽比和光电转换效率有了很大的提高。本文主要介绍了二氧化钛纳米管的阳极氧化原理以及有机电解液在阳极氧化法中对二氧化钛纳米管生长过程的影响。 相似文献
4.
二氧化钛纳米管由于其特殊的结构和优异的性能,在很多领域都有着重要的应用前景。阳极氧化法是制备二氧化钛纳米管的一种主要方法。近来,在阳极氧化法中使用有机电解液来制备二氧化钛纳米管取得了非常显著的效果。与传统的水溶性电解液相比,其深宽比和光电转换效率有了很大的提高。本文主要介绍了二氧化钛纳米管的阳极氧化原理以及有机电解液在阳极氧化法中对二氧化钛纳米管生长过程的影响。 相似文献
5.
焙烧条件对金催化剂的结构及其催化CO氧化性能的影响 总被引:8,自引:0,他引:8
采用共沉淀法和金属有机配合物固载法,分别制备了负载型金催化剂,并考察了焙烧条件对其催化CO氧化性能的影响。实验结果表明,焙烧温度和时间对催化剂的结构和活性的影响显著,不同的金属氧化物负载的金催化剂具有不同的最佳焙烧温度。DTA-TG分析结果确定了催化剂稳定结构的形成温度;XRD测试结果显示,在最佳焙烧条件下得到的催化剂,其载体为具有一定结晶度的金属氧化物。 相似文献
6.
7.
8.
甲烷合成甲醇的方法包括间接法和直接催化氧化(DMTM)法,但是间接法对设备要求高,且甲烷转化率与甲醇选择性均不理想,DMTM法可通过一步反应高选择性制备甲醇,有巨大的应用潜力。对于甲烷DMTM法合成甲醇,均相催化体系通常需要特殊反应介质与贵金属催化剂相结合,虽然反应效率高,但对反应设备有腐蚀性,产物不易分离,应用前景差。液相-异相催化一般使用H_(2)O_(2)作为氧化剂,Au、Pd、Fe和Cu等金属元素作为催化剂主要活性组分,·OH是主要的氧化活性物,可在低温下实现甲烷的活化氧化。因此,异相催化体系是目前研究的主流。气相-异相催化主要使用O_(2)和N_(2)O为氧化剂,前者氧化性更强,后者对于产品选择性更好,此外,厌氧体系中H_(2)O也可直接作为氧供体,常用Cu、Fe、Rh等元素作为催化剂。沸石分子筛是使用最广泛的载体,金属氧化物、金属有机骨架化合物(MOFs)和石墨烯也均有涉及,多金属协同催化已经取得了很好的效果。本文主要总结与概述了热催化甲烷直接催化氧化制备甲醇的近年相关研究,并对今后的研究方向做出了展望。 相似文献
9.
有机氧化还原反应方程式的一种配平法──代数法李致冉(山东大学化学系,济南250100)有的文献[1]和教科书 ̄[2]曾介绍过配平有机氧化还原方程式的两种方法,即半反应法和氧化数法。本文介绍另一种方法——代数法。它的具体步骤是:第一,写出基本反应式;第... 相似文献
10.
分子氧选择性氧化醇类的研究进展 总被引:1,自引:0,他引:1
综述了分子氧化剂的醇类液相催化氧化的新进展。分别介绍了均相催化、水/有机两相催化、氟两相催化和液固多相催化体系。重点讨论了精细有机合成中有广泛应用前景的绿色氧化方法。预测了均相催化剂的多相化是今后工业化发展的趋势。 相似文献
11.
半导体电路及其元器件是实现现代信息传递的重要组成部分,随着无机电路特别是硅基电路的研究发展进入瓶颈,有机电路及其基本元器件的研究对于电路及系统的未来发展意义更加重大。近十年来,有机电路及其基本元器件取得了飞速的发展,多种基本元件器性能已经达到可应用程度,特别是在显示领域,基于有机半导体制备的OLED显示电路已经成为新一代显示器的选择。同时,有机电路也因其所具有的低成本、可弯折、高透光等特性而具有了更多的发展空间。本综述从构成有机电路的各基本部件出发,以各部分器件在电路系统中的应用为线索,从系统信息采集、信息处理、信息存储和信息输出4个方面简述了各部分基础元件的发展情况,并以基于有机场效应晶体管的器件为基础,对器件的结构、电性能的优化以及所面临的问题进行了讨论。 相似文献
12.
Yongkun Yan Yan Zhao Yunqi Liu 《Journal of polymer science. Part A, Polymer chemistry》2022,60(3):311-327
Organic integrated circuits are undergoing rapid development with the extensive research on organic semiconducting materials and the performance improvement of organic field-effect transistors. Organic integrated circuits not only cover all the major circuit types, their complexity, degree of integration, and performance have also been improved in recent years. In this review, recent advances in the design and fabrication of integrated circuits based on organic field-effect transistors are reported. The circuits are categorized into digital and analog, which are discussed in detail centering on the structure, fabrication process, and performance. In addition, progress in the modeling and simulation of organic integrated circuits are discussed as well, as they are key issues for the future development of organic electronics. 相似文献
13.
Xiaoxi Wu Lei Lv Lifang Hu Prof. Qinqin Shi Prof. Aidong Peng Prof. Hui Huang 《Chemphyschem》2019,20(20):2600-2607
Tellurophene-based small molecules and polymers have received great attentions owing to their applications in thin-film transistors, solar cells, and sensors. This article reviews the current progress of the synthesis and applications of tellurophene-based small molecules and polymers. The physicochemical properties and optoelectronic applications of tellurophene-based materials are summarized and discussed. In the end, the challenges and outlook of tellurophene-based materials are presented. 相似文献
14.
15.
Ranjeet A. Dhokale Frederick J. Seidl Shyam Sathyamoorthi 《Molecules (Basel, Switzerland)》2021,26(13)
We show that 1M aqueous HCl/THF or NaBH4/DMF allows for demercurative ring-opening of cyclic organomercurial synthons into secondary silanol products bearing terminal alkenes. We had previously demonstrated that primary allylic silanols are readily transformed into cyclic organomercurials using Hg(OTf)2/NaHCO3 in THF. Overall, this amounts to a facile two-step protocol for the rearrangement of primary allylic silanol substrates. Computational investigations suggest that this rearrangement is under thermodynamic control and that the di-tert-butylsilanol protecting group is essential for product selectivity. 相似文献
16.
Herein, the photophysical, morphological, optical gain characteristics of a set of trigonal monodisperse starburst conjugated macromolecules ( Tr1‐Tr4 ) have been systematically investigated in order to elucidate the influence of the molecular structures on their optoelectronic performance. With increasing the oligofluorene arm length, absorption spectra were red‐shifted progressively, whereas an increase in photoluminescence quantum yields (PLQYs) and optical gain coefficients, and a corresponding reduction in amplified spontaneous emission (ASE) thresholds and loss coefficients were observed for Tr1‐Tr3 except for Tr4 . The results indicate that the effective conjugation length become saturated for Tr3 in this system. Impressively, the resulting molecules manifested very low ASE thresholds (4.4–11.6 μJ cm?2) with high photostability, as well as high thermal stability. One dimensional distributed feedback (DFB) lasers exhibited a minimum lasing threshold of 10.38 nJ pulse?1 (0.86 kW cm?2, 4.325 μJ cm?2) for Tr3 . It should be emphasized that the ASE threshold of Tr1‐Tr4 was nearly unchanged from room temperature to 200 °C. The results suggest that this kind of truxene‐cored conjugated starbursts with high photostability and low lasing thresholds are rather promising gain media for organic semiconductor lasers. 相似文献
17.
可拉伸有机电子器件具有高机械稳定性、优异的电学稳定性、低成本和生物兼容性好等优点,是未来电子器件发展的重要方向.功能性可拉伸有机电子器件更是为可穿戴和可植入设备、智能医疗以及软体机器人等新兴高技术领域提供了新的研究思路.本文综述了近年来功能性可拉伸有机电子器件的研究进展,包括场效应、光电、存储以及传感等有机晶体管,发光二极管、交流电致发光、发光电化学电池等有机光电器件,太阳能电池、超级电容器、纳米发电机等有机能源存储与转换器件,压力、应变、触觉、温度、气体等有机传感器,忆阻器、磁存储、仿突触存储等有机存储器,以及其他集成电路系统元件,最后就功能性可拉伸有机电子器件存在的科学问题与未来的发展方向提出了建议. 相似文献
18.
19.
基于外场观测的大气二次有机气溶胶研究 总被引:1,自引:0,他引:1
二次有机气溶胶(SOA)是指挥发性有机物在大气中发生光化学氧化进入到颗粒相的产物,由于其具有强烈的环境效应、气候效应和人体健康效应,因此成为大气化学研究的热点. 然而由于SOA的复杂性和测量技术的限制,目前对SOA的研究还非常有限. 总体来说,对SOA的研究手段主要有三种方法:实验室模拟、模式模拟和基于外场观测的SOA研究. 由于SOA的研究非常广泛,本文仅综述了基于外场观测的SOA组成、来源和生成机制的研究,重点在于SOA组分的测量和总量的估算. 基于外场观测的SOA研究是随着技术的发展而发展的,早期的研究仅仅能对SOA的少数物种进行测量,主要是一些有机酸和多羟基化合物;也有利用一些假设对SOA进行粗略的估算,如受体模型法、非生物质燃烧水溶性有机物法;随着SOA实验室模拟研究和示踪物测量技术的发展,二次有机示踪物法真正做到了对特定前体物VOC生成SOA的估算;随着在线测量技术的提高,EC示踪/CO示踪和OC/EC比值法和基于气溶胶质谱(AMS)-正交矩阵模型(PMF)的方法被广泛应用于SOA的估算. 尤其是AMS-PMF联用方法的出现为SOA来源和生成机制的研究开拓了新的方向. 对AMS技术和示踪物技术的进一步联合和开发有望成为未来SOA研究重要的方向. 相似文献
20.
Kai Su Nurxat Nuraje Lingzhi Zhang I-Wei Chu Hiroshi Matsui Nan-Loh Yang 《Macromolecular Symposia》2009,279(1):1-6
Single crystalline nanoneedles of three families of the most studied conductive organic polymers - polythiophene, polyaniline and polypyrrole - were synthesized for the first time using an interfacial polymerization process that takes place with simultaneous crystallization. As the crystal growth is concurrent with polymerization, more ordered crystal packing can be expected. Most of the bulk conducting-polymer systems studied contains regions that are inhomogeneous. Single nanocrystals of conducting polymers have not been reported, although needle-shaped bulk crystals of the quarterphenyl cation radical salt have previously been studied. The investigation of processes in a nanodomain of a single crystal is critical in ascertaining the inherent electronic properties of polymer nanoelements. The organic conductive nanoneedles were characterized using TEM, HRTEM, electron diffraction, EDS, and EPR to establish their crystal structure and composition. Scanning tunneling microscopy/spectroscopy (STM/STS) investigation were conducted to examine their electronic behaviors, leading to the discovery of a field-induced conductance switching with response times on the millisecond level. The switch voltages are in the range of 3 to 4 volts in STM experiments, consistent with the trend of the band gap of the three polymers. The organic conductive nanoneedles with nano-tip having high density of mobile electron may serve as interesting elements for nanoscale electronics. 相似文献