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101.
MAX相是一类具有层状结构的三元碳化物或(和)氮化物,M是过渡金属元素,A主要是ⅢA~ⅤA族元素,X是C或N元素。这类化合物兼具陶瓷材料和金属材料的特点,具有优异的导电、导热、耐腐蚀以及抗氧化等性能,在诸多领域具有潜在应用价值。近年来,新元素、新结构和固溶体MAX相的不断出现,进一步扩展了MAX相家族。固溶体MAX相是将合适的元素固溶到已知MAX相中而得到的新MAX相。本文分四类总结了127种MAX相固溶体,对其结构改变和性能调控进行了概括,并指出目前研究存在的理论问题和亟须解决的关键技术,最后对MAX相固溶体的发展进行了预测和展望。 相似文献
102.
High-energy x-ray diffraction study on phase transition asymmetry of plastic crystal neopentylglycol 下载免费PDF全文
As a prototype material of colossal barocaloric effects, neopentylglycol is investigated by combining high-precision differential scanning calorimetric measurement and high-energy x-ray diffraction measurement. The diffraction data at constant temperatures indicate a first-order phase transition with thermal hysteresis as well as the phase transition asymmetry, specifically, the phase transition is completed faster at cooling than at heating. The analysis of resulting pair distribution function confirms the intermolecular disorder in the high-temperature phase. The phase transition asymmetry is quantitatively characterized by time-resolved x-ray diffraction, which is in agreement with the thermal measurement. Also, such an asymmetry is observed to be suppressed at high pressures. 相似文献
103.
Shuo-Qing Liu 《中国物理 B》2022,31(7):74101-074101
We establish the beam models of Goos-Hänchen (GH) and Imbert-Fedorov (IF) effects in tilted Weyl semimetals (WSMs), and systematically study the influences of Weyl cone tilting and chemical potential on the GH and IF shifts at a certain photon energy 1.96 eV. It is found that the GH and IF shifts in tilted type-I and type-Ⅱ WSMs are both almost symmetric about the Weyl cone tilting. Meanwhile, the GH and IF shifts in type-I WSMs almost do not change with the tilt degree of Weyl cones, while those in type-Ⅱ WSMs are extremely dependent on tilt degree. These trends are mainly due to the nearly symmetric distribution of WSMs conductivities, where the conductivities keep stable in type-I WSMs and gradually decrease with tilt degree in type-Ⅱ WSMs. By adjusting the chemical potential, the boundary between type-I and type-Ⅱ WSMs widens, and the dependence of the beam shifts on the tilt degree can be manipulated. Furthermore, by extending the relevant discussions to a wider frequency band, the peak fluctuation of GH shifts and the decrease of IF shifts occur gradually as the frequency increases, and the performance of beam shifts at photon energy 1.96 eV is equally suitable for other photon frequencies. The above findings provide a new reference for revisiting the beam shifts in tilted WSMs and determining the types of WSMs. 相似文献
104.
105.
In the last decade, the field of stimuli-responsive luminescent materials have been intensely emerged because of the high potential application to functional sensors or photoelectronic devices. In particular, luminescent molecular crystals constructed from Au(I) complexes have produced a wide range of examples of luminescent alterations when some external stimulations, such as heat, mechanical stress, vapor (or solvents), were applied to the solid samples. In this review, we describe the recent progress through a summary of the reported Au(I) complexes based on their utilized stimuli-responsive mechanisms, which are categorized in crystal phase transitions (“crystal-to-amorphous”, “crystal-to-crystal” and “single-crystal-to-single-crystal” transitions) and molecular rotation in crystalline media, respectively. 相似文献
106.
Yussri Salem 《Surface and interface analysis : SIA》2022,54(7):775-785
The current study aims to characterize a heavily corroded bronze statue from Pharaonic Egypt, in terms of the morphology and mechanism of corrosion. The characterization was carried out by a combination of methods, including the scanning electron microscope equipped with energy dispersive X-ray spectroscopy (SEM–EDS), USB digital microscope, X-ray micro-diffraction, and Raman micro-spectroscopy. Insights into the morphology and corrosion mechanisms of two corrosion stages are presented. Specifically, the metallic-wall layer was first converted into grayish-brown corrosion mottled with green and gray spots in the central part, in which a greenish-white corrosion phase was formed in the second stage. The EDS analysis of the greenish-white phase revealed the predominance of tin, copper, oxygen, and carbon and a low chlorine content. The greenish-white phase consisted of four corrosion products: romarchite, cassiterite, malachite, and a small amount of atacamite. The morphology developed upon corrosion was attributed to the selective dissolution and depletion of copper in the central layer, internal oxidation of tin, and conversion of cuprite into malachite. Moreover, the usual bronze corrosion products were formed as a superficial layer on the statue. 相似文献
107.
Yuan-Yuan Jin 《中国物理 B》2022,31(11):116104-116104
The recent discovery of the novel boron-framework in boron-rich metal borides with complex structures and intriguing features under high pressure has stimulated the search into the unique boron-network in the metal monoborides or boron-deficient metal borides at high pressure. Herein, based on the particle swarm optimization algorithm combined with first-principles calculations, we thoroughly explored the structural evolution and properties of TiB up to 200 GPa. This material undergoes a pressure-induced phase transition of $Pnma$ $\to $ $Cmcm$ $\to $ $Pmmm$. Besides of two known phases $Pnma$ and $Cmcm$, an unexpected orthorhombic $Pmmm$ structure was predicted to be energetically favored in the pressure range of 110.88-200 GPa. Intriguingly, the B covalent network eventually evolved from a one-dimensional zigzag chain in $Pnma$-TiB and $Cmcm$-TiB to a graphene-like B-sheet in $Pmmm$-TiB. On the basis of the microscopic hardness model, the calculated hardness ($H_{\rm v}$) values of $Pnma$ at 1 atm, $Cmcm$ at 100 GPa, and $Pmmm$ at 140 GPa are 36.81 GPa, 25.17 GPa, and 15.36 GPa, respectively. Remarkably, analyses of the density of states, electron localization function and the crystal orbital Hamilton population (COHP) exhibit that the bonding nature in the three TiB structures can be considered as a combination of the B-B and Ti-B covalent interactions. Moreover, the high hardness and excellent mechanical properties of the three TiB polymorphs can be ascribed to the strong B-B and Ti-B covalent bonds. 相似文献
108.
109.
将天然可再生资源脱氢枞酸与甲基丙烯酸缩水甘油酯反应制得脱氢枞酸酯(DAGME),并将其通过“巯-烯”点击反应接枝到巯基功能化硅胶表面,制备得到一种疏水型脱氢枞酸酯键合硅胶色谱固定相(SilDAGME)。利用傅里叶变换红外光谱(FT-IR)、热失重分析(TGA)和元素分析(EA)对固定相进行表征,结果表明Sil-DAGME固定相成功制备。以烷基苯、Tanaka测试混合物、多环芳烃、酚类化合物和黄酮类化合物作为分离对象对Sil-DAGME的分离性能及保留机制进行评价。研究发现Sil-DAGME除疏水作用保留机制外,还具有氢键和π-π相互作用。基于多种保留机制的协同作用,Sil-DAGME对上述分析物均表现出良好的分离性能。此外,Sil-DAGME不仅具有良好的重现性(RSD为0.050%~0.19%,n=10)、稳定性(RSD为0.25%~1.0%,n=7)和可重复制备性(RSD为0.78%~2.1%,n=3),还对红豆杉树皮粗提物表现出良好的分离效果。将脱氢枞酸用于制备新型的色谱填料不仅为紫杉醇的分离和检测提供了一种新途径,也为以天然产物松香作为功能配体设计和制备新型固定相提供了参考。 相似文献
110.
Prof. Domenico C. M. Albanese Dr. Michele Penso 《European journal of organic chemistry》2023,26(19):e202300224
Phase Transfer Catalysis (PTC) is a powerful tool to perform reactions in a practical fashion, both in laboratory and industrial scale. Significant cost savings and major process improvements can be achieved in reactions performed under PTC conditions. In the last few years remarkable results in stereoselective reactions were achieved using chiral, non-racemic quaternary ammonium salts. Moreover, the use of bulky, chiral phosphate anions paired with achiral cations to generate lipophilic ion pairs allowed to design new avenues for the stereoselective construction of important building blocks. Hydrogen bond interactions were also shown to provide new pathways for asymmetric nucleophilic substitutions using insoluble reagents under PTC conditions. This Review will focus on recent advances in developing practical synthetic routes to construct molecules in a stereoselective fashion under PTC conditions. 相似文献