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国家自然科学基金(51032001)

作品数:9 被引量:12H指数:1
相关作者:崔田马帅领朱品文陶强刘冰冰更多>>
相关机构:吉林大学更多>>
发文基金:国家自然科学基金国家重点基础研究发展计划中国博士后科学基金更多>>
相关领域:理学一般工业技术化学工程更多>>

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过渡金属硼化物的结构与性质被引量:8
2017年
过渡金属硼化物(TMBs)是一类具有强耐磨性、抗腐蚀性、耐高温、高硬度的多功能材料.过渡金属与硼原子间电荷转移量的多样性决定了过渡金属硼化物中化学键的成键方式和成键强弱,最终导致过渡金属硼化物丰富的结构以及潜在的多功能特性.过渡金属硼化物的制备、晶体结构和力学性能一直是该领域的研究热点.硼原子间的强共价键决定了过渡金属硼化物的合成需要高能量;晶体结构中化学键的强弱与过渡金属硼化物的硬度性质息息相关;多种化学键成键方式使过渡金属硼化物展现出了丰富的多功能性质.本文主要从过渡金属硼化物的合成、结构、硬度性质和多功能性质四个方面,以不同硼原子亚结构单元为出发点,总结和分析了过渡金属硼化物的研究现状.我们认为,利用高温高压制备TMBs,诱导过渡金属与硼原子之间的电子转移,构造(准)三维的化学键,是设计制备新型多功能硬质过渡金属硼化物的有效方法.
陶强马帅领崔田朱品文
关键词:高温高压
High volumetric hydrogen density phases of magnesium borohydride at high-pressure:A first-principles study被引量:1
2012年
The previously proposed theoretical and experimental structures, bond characterization, and compressibility of Mg(BH4)2 in a pressure range from 0 to 10 GPa are studied by ab initio density-functional calculations. It is found that the ambient pressure phases of meta-stable I41/amd and unstable P-3ml proposed recently are extra stable and cannot decompose under high pressure. Enthalpy calculation indicates that the ground state of F222 structure proposed by Zhou et al. [2009 Phys. Rev. B 79 212102] will transfer to I41/amd at 0.7 GPa, and then to a P-3ml structure at 6.3 GPa. The experimental P6122 structure (a-phase) transfers to I41/amd at 1.2 GPa. Furthermore, both I41/arnd and P-3ml can exist as high volumetric hydrogen density phases at low pressure. Their theoretical volumetric hydrogen densities reach 146.351 g H2/L and 134.028 g H2/L at ambient pressure, respectively. The calculated phonon dispersion curve shows that the I41/amd phase is dynamically stable in a pressure range from 0 to 4 CPa and the P-3ral phase is stable at pressures higher than 1 GPa. So the I41/arnd phase may be synthesized under high pressure and retained to ambient pressure. Energy band structures show that they are both always ionic crystalline and insulating with a band-gap of about 5 eV in this pressure range. In addition, they each have an anisotropic compressibility. The c axis of these structures is easy to compress. Especially, the c axis and volume of P-3ml phase are extraordinarily compressible, showing that compression along the e axis can increase the volumetric hydrogen content for both I41/amd and P-3ml structures.
范靖包括段德芳汪连城刘冰冰崔田
飞秒激光制备黑硅的光谱研究
硅表面对光的高反射率,使其在太阳能电池、光电响应等方面的应用受到了很大的限制,为此,研究人员尝试了多种方法,其中,利用激光在硅表面进行微纳加工是一种高效的途径。本文用飞秒激光在空气中对单晶硅进行扫描处理,在硅表面制备出平...
孟娇宋海英刘嵩董祥明刘世炳
High pressure structural phase transitions of TiO_2 nanomaterials被引量:1
2016年
Recently, the high pressure study on the TiO_2 nanomaterials has attracted considerable attention due to the typical crystal structure and the fascinating properties of TiO_2 with nanoscale sizes. In this paper, we briefly review the recent progress in the high pressure phase transitions of TiO_2 nanomaterials. We discuss the size effects and morphology effects on the high pressure phase transitions of TiO_2 nanomaterials with different particle sizes, morphologies, and microstructures. Several typical pressure-induced structural phase transitions in TiO_2 nanomaterials are presented, including size-dependent phase transition selectivity in nanoparticles, morphology-tuned phase transition in nanowires, nanosheets,and nanoporous materials, and pressure-induced amorphization(PIA) and polyamorphism in ultrafine nanoparticles and TiO_2-B nanoribbons. Various TiO_2 nanostructural materials with high pressure structures are prepared successfully by high pressure treatment of the corresponding crystal nanomaterials, such as amorphous TiO_2 nanoribbons, α-PbO_2-type TiO_2 nanowires, nanosheets, and nanoporous materials. These studies suggest that the high pressure phase transitions of TiO_2 nanomaterials depend on the nanosize, morphology, interface energy, and microstructure. The diversity of high pressure behaviors of TiO_2 nanomaterials provides a new insight into the properties of nanomaterials, and paves a way for preparing new nanomaterials with novel high pressure structures and properties for various applications.
李全军刘冰冰
High-pressure Raman study of solid hydrogen up to 300 GPa
2016年
The high-pressure behavior of solid hydrogen has been investigated by in situ Raman spectroscopy upon compression to 300 GPa at ambient temperature. The hydrogen vibron frequency begins to decrease after it initially increases with pressure up to 38 GPa. This softening behavior suggests the weakening of the intramolecular bond and the increased intermolecular interactions. Above 237 GPa, the vibron frequency softens very rapidly with pressure at a much higher rate than that of phase HI, corresponding to transformation from phase III into phase IV. The phase transition sequence has been confirmed from phase I to phase III and then to phase IV at 208 and 237 GPa, respectively. Previous theoretical calculations lead to the proposal of an energetically favorable monoclinic C2/c structure for phase HI and orthorhombic Pbcn structure for phase IV. Up to 304 GPa, solid hydrogen is not yet an alkali metal since the sample is still transparent.
黄晓丽李芳菲黄艳萍吴刚李鑫周强刘冰冰崔田
High pressure induced novel phase transition in nano-confined C60 Crystals
The phase transformation of carbon materials under high pressure have attracted growing research interest due ...
刘冰冰姚明光王霖刘德弟崔雯Bertil Sundqvist
Study of high pressure structural stability of CeO_2 nanoparticles
2013年
In situ high pressure XRD diffraction and Raman spectroscopy have been performed on 12 nm CeO2 nanoparticles. Surprisingly, under quasihydrostatic conditions, 12 nm CeO2 nanoparticles maintain the fluorite- type structure in the whole pressure range (0-51 GPa) during the experiments, much more stable than the bulk counterpart (PT-31 GPa). In contrast, they experienced phase transition at pressure as low as 26 GPa under non- hydrostatic conditions (adopting CsC1 as pressure medium). Additionally, 32-36 nm CeO2 nanoparticles exhibit an onset pressure of phase transition at 35 GPa under quasihydrostatic conditions, and this onset pressure is much lower than our result. Further analysis shows both the experimental condition (i.e., quasihydrostatic or non-hydrostatic) and grain size effect have a significant impact on the high pressure behaviors of CeO2 nanomaterials.
刘波刘然李全军姚明光邹勃崔田刘冰冰刘景
Controllable synthesis of fullerene nano/microcrystals and their structural transformation induced by high pressure被引量:1
2013年
Fullerene molecules are interesting materials because of their unique structures and properties in mechanical, electrical, magnetic, and optical aspects. Current research is focusing on the construction of well-defined fullerene nano/microcrystals that possess desirable structures and morphologies. Further tuning the intermolecular interaction of the fullerene nano/microcrystals by use of pressure is an efficient way to modify their structures and properties, such as creation of nanoscale polymer structures and new hybrid materials, which expands the potential of such nanoscale materials for di- rect device components. In this paper, we review our recent progress in the construction of fullerene nanostructures and their structural transformation induced by high pressure. Fullerene nano/microcrystals with controllable size, morphology and structure have been synthesized through the self-assembly of fullerene molecules by a solvent-assisted method. By virtue of high pressure, the structures, components, and intermolecular interactions of the assemblied fullerene nano/microcrystals can be finely tuned, thereby modifying the optical and electronic properties of the nanostructures. Several examples on high pressure induced novel structural phase transition in typical fullerene nanocrystals with C60 or C70 cage serving as build- ing blocks are presented, including high pressure induced amorphization of the nanocrystals and their bulk moduli, high pressure and high temperature (HPHT) induced polymerization in C60 nanocrystals, pressure tuned reversible polymeriza- tion in ferrocene-doped C60/C70 single crystal, as well as unique long-range ordered crystal with amorphous nanoclusters serving as building blocks in solvated C60 crystals, which brings new physical insight into the understanding of order and disorder concept and new approaches to the design of superhard carbon materials. The nanosize and morphology effects on the transformations of fullerene nanocrystals have also been discussed. These results provide th
姚明光杜明润刘冰冰
关键词:FULLERENESNANOCRYSTALS
Pressure-Dependent Relaxation Dynamics of Excitons in Conjugated Polymer Film
<正>Conjugated polymers have attracted much attention because of their unique features like low weight,low fabr...
陆冬筱Ying-Hui WangFang-Fei LiQiang ZhouTian Cui
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CeO_2纳米八面体高压结构相变的Raman研究(英文)被引量:1
2014年
利用高压原位拉曼光谱技术研究了非静水条件对CeO2纳米八面体高压结构相变的重压影响。研究表明:在非静水条件下(无传压介质),当压力达到26 GPa时,CeO2纳米八面体发生由立方萤石型结构到正交α-PbCl2型结构的可逆结构相变,相变压力低于相应的体材料(30 GPa)。相反,在准静水压条件下,CeO2纳米八面体的相变压力为33 GPa,高于其体材料。研究表明,实验条件对CeO2纳米八面体结构稳定性具有重要影响。
刘波刘然李全军姚明光邹勃崔田刘冰冰
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