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利用客体插层剂原位插层到二维层状材料, 不仅能够在原子尺度上实现对材料电子结构和本征物理性质的调控, 提高材料的载流子浓度、迁移率、磁学、光学和热学等物理性质, 而且还有望拓展其在光电子器件、能源存储与转化以及光电催化等方面的应用. 近年来, 探索合适的方法制备具有不同类型和功能的二维插层新结构已逐渐成为材料科学、物理、化学等领域的研究热点. 由于独特的电子结构和优异的性能, 二维层状过渡金属氧族化合物材料作为插层主体的插层结构受到了研究人员的广泛关注. 本文选取过渡金属氧族化合物为对象, 综述了不同种类插层剂原位插层合成方法(如碱金属插层、非碱金属原子插层、聚合物插层、有机小分子插层、还原氧化石墨烯插层), 提出了通过系列方法影响层间作用力以及利用晶体各向异性等工艺来实现新型插层结构的原位合成策略, 并展望了新型插层材料在电、磁、光、热、锂电、催化等众多领域的潜在应用前景. 相似文献
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因主体层板和层间客体具有丰富的可调性, 类水滑石材料(LDHs)在催化、 吸附、 生物医药及光、 电、 磁等方面展现出了广阔的应用前景. 近年来理论研究已成为揭示LDHs微观结构和性质的重要手段, 本文系统综述了LDHs材料主体结构、 客体结构以及主客体相互作用3个方面的理论研究工作进展, 及其在作为光驱动催化剂方面应用的理论研究. 从主体元素构成、 元素比例、 电荷分布、 拓扑结构转变、 能带结构、 态密度、 层间阴离子组成、 离子交换性能、 主客体作用力、 能量性质及光催化性能等方面, 在原子、 电子尺度上揭示了LDHs材料结构-性能之间的构效关系, 为以其为材料平台构筑一系列基于超分子插层结构主客体间相互作用的新型功能材料、 扩展材料的功能性提供了丰富的理论信息和有益指导. 相似文献
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本文基于水滑石类插层材料(LDHs)特有的超分子结构及其功能可调控性,采用离子交换法成功合成了邻、间、对硝基苯甲酸阴离子(o-、m-、p-NBA-)插层的锌铝水滑石,并研究了插层产物的光敏性能。插层后这3种异构体化合物都在紫外光照射下表现出不同的光响应程度,即光敏作用:m-NBA-LDHo-NBA-LDH≈p-NBA-LDH。用PXRD、FTIR、UV/Vis和理论计算研究了光敏性能,并提出了可能的光敏机理,为其应用于新型感光材料提供了一定的理论基础。 相似文献
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以层状镁铝双金属氢氧化物(MgAlLayeredDoubleHydroxides,Mg-AlLDHs)为主体,以有机紫外光稳定剂2-羟基-4-甲氧基二苯甲酮-5-磺酸(BP)为客体,结合焙烧复原法和阴离子交换法合成了具有超分子结构有机-无机插层复合物(MgAl-BPLDHs),研究了层间阴离子、反应介质、pH值、反应时间等因素对于插层材料超分子结构的影响。用FTIR、XRD、TG-DTA、UV-Vis和粒度分析对其不同尺度的结构、热稳定性和紫外光稳定性等进行表征。结果表明,采用阴离子交换法难以进行插层反应;通过焙烧复原法可显著降低MgAl-LDHs层间CO2-离子,从而有利于BP阴离子交换进入MgAl-LDHs层间,在去离子水中,水温100℃,pH=7,反应时间为48h,BP过饱和的条件下合成得到最高插层率的MgAl-BP-LDHs;主体水滑石层板与客体以静电力和氢键相互作用,得到的超分子结构材料具有良好的热稳定及兼具优异的紫外屏蔽、吸收性能,是一种新型的有机-无机复合光热稳定剂。 相似文献
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插层化学是指客体插入到主体形成插层化合物的过程.近年来,插层化学作为一种有效的材料结构修饰方法,已广泛应用于电化学储能和转换领域.过渡金属氧化物由于其结构和成分的可调性,在插层性能和应用方面取得了很大进展,但仍存在插层机理及性质变化原因不明确等问题.本文首先对过渡金属氧化物的插层机理进行了综合评述,分析归纳了常见的插层制备方法,然后总结了插层过渡金属氧化物在电催化中研究的最新进展,最后对该领域未来面临的机遇和挑战进行了展望. 相似文献
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Mg-based layered intercalated functional materials of the layered double hydroxide type are a significant class of magnesium compounds. Based on long-term studies of these materials in the State Key Laboratory of Chemical Resource Engineering in Beijing University of Chemical Technology, two principles of “using the intended application of a material as a guide to its structure design and synthesis process” and “the design of controlled intercalation processes in the light of future production processing requirements” have been developed. To achieve these objectives, the composition of the host layers and guest interlayer anions was tailored at the microlevel, while the mesostructure and macrostructure were controlled to fabricate different kinds of Mg-based layered intercalated functional materials. These materials have diverse applications in key areas such as catalysis, the environment, and construction, and as polymer additives. Therefore, China’s magnesium resources may be utilized more efficiently for the benefit of society. 相似文献
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For material recycling, composites have to be separated into their components, as only non-mixed raw materials can grant high quality standards. A combined mechanical and subsequent electrostatic separation can be classified as highly economic because it is a dry treatment. This is demonstrated on wire scrap. The separated copper and synthetic materials are obtained in a high degree of purity. Chemical disaggregation of composites has been worked out with medicinal blister packs and beverage packs. Two methods of separation were used: separating the plastic-aluminium composite by dissolving the plastic material or dissolving the adhesive that bonds together the plastic and aluminium. To demonstrate the technical feasibility of the processes, a pilot plant with a capacity of up to 25 tons of blister pack material per year was built. Chemical separation with non-problematic aqueous media was demonstrated with flocked plastics. When integrating composites into chemical processes, questions concerning material specification as well as preparation and chemical utilization must be answered. Mechanical preparation of appropriate raw materials has been exemplified by mixed packing waste, carpet-floor waste, and synthetic material from electrical waste. After the raw materials were analyzed and studies of their quantity and compositions were made, their possible re-use as raw material within a chemical process has been elaborated. 相似文献
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Smirnova E. A. Karushev M. P. Timonov A. M. Alekseeva E. V. Levin O. V. Malev V. V. 《Russian Chemical Bulletin》2015,64(8):1919-1925
Russian Chemical Bulletin - The results of the synthesis and investigation of new composite functional materials are presented. The new materials are conductive polymer layers of the cobalt,... 相似文献
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Wang Zhiming Xu Zhangwei Guan Yunfeng Zhu Hui Yuan Guanming Dong Zhijun Li Xuanke Zhang Qin Cong Ye 《Research on Chemical Intermediates》2022,48(4):1733-1746
Research on Chemical Intermediates - Activated carbon fibers (ACFs), as the third generation of activated carbon materials, are promising adsorbents due to their rich surface functional groups,... 相似文献
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Ba Chaoqun Shi Liyi Wang Zhuyi Chen Guorong Wang Shuai Zhao Yin Zhang Meihong Yuan Shuai 《Research on Chemical Intermediates》2017,43(10):5857-5869
Research on Chemical Intermediates - The electrochemical performance of lithium-ion batteries are affected by the anode materials. SnO2 is an important anode material due to its high theoretical... 相似文献
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Takeo Shimidzu 《Macromolecular Symposia》2001,175(1):177-184
Both quantum functional material (Ψ‐engineering material) and molecular engineering materials are of interest as ultimate functional materials. The former creates a novel property which is specific to the structure, and the latter gives he functional material of the smallest size. In this paper, some aspects to construct those materials with polymer having big varieties and flexible applications are described: 1. Conjugating polymer superlattice (conjugating polymer multilayers which is able to change wave length of emission light). 2. Porphyrin arrays connected with molecular wires (a proto‐type photo‐information housing‐in and reading out polymeric material). 3. Oligonucleotide shackled with porphyrin (an artificial restrictive photoactive enzyme). 相似文献
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Semire Banjo Oyebamiji Abel Odunola Olusegun Ayobami 《Research on Chemical Intermediates》2016,42(5):4605-4619
Research on Chemical Intermediates - The use of computational methods such as density functional theory (DFT) in material design has attracted considerable attention aimed at achieving efficient... 相似文献
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介孔材料是一种具有较大比表面积和高度有序孔道结构的材料,而功能化介孔材料是将介孔材料改性而使其具有不同的功能。这种材料由于具有极好的吸附和催化性能而被广泛应用于环境领域中。本文总结了功能化介孔材料的制备方法,包括引入官能团、掺杂金属和酸改性;探讨分析了几种制备方法下的功能化介孔材料的特点和应用前景;重点介绍了功能化介孔材料在吸附重金属、有机污染物、染料、CO2以及催化领域的研究进展;最后展望了未来功能化介孔材料的应用前景和发展趋势,以期为功能化介孔材料的发展提供参考和指明方向。 相似文献
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Hans Dietmar Zinsmeister Hans Becker Theophil Eicher 《Angewandte Chemie (International ed. in English)》1991,30(2):130-147
Chemical studies of the plant category of mosses (bryophytes) were neglected for a long time. They have now been shown to be a storehouse of naturally occurring materials, including some with novel chemical structures. Many of these materials display considerable biological activity. Investigations are hampered frequently by too small amounts of plant material. The resulting low yields of components are then generally inadequate to permit testing for biological activity. In vitro culture and appropriate chemical synthesis on a preparative scale are being undertaken to overcome this difficulty. 相似文献
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Takeo Shimidzu 《Macromolecular Symposia》1996,104(1):127-135
Approaches to polymer superlattice and molecular devices are shown, demonstrating with functional molecule material by incorporation of a functional molecule into the conducting polymer, conjugating copolymer superlattice by a novel potential programmed electro polymerization, ultrahigh anisotropic conductive LB heterolayers, and porphyrin arrays connected with conducting molecular wire and insulating molecular wire. These results show a practical method to fabricate ultimate functional materials such as molecular device which is the smallest functional material, and quantum functional material which creates a novel nature. 相似文献