Novel Multilayered(新颖的多层)研究综述
Novel Multilayered 新颖的多层 - Provided are thermophysical data for aerogels, aerogel composites, novel multilayered composites, and glass bubbles for standard test conditions of 293 K and 78 K under conditions from high vacuum to ambient pressure. [1] The novel multilayered scaffold with gradient structure provided an interesting option for bone tissue engineering. [2] This study develops and numerically investigates a novel multilayered sieve reactor that can promote dehydration and hydration reactions. [3] Therefore, epoxy coatings modified with the novel multilayered capsules may be attractive for corrosion protection of steel parts used in oil and gas and related industries. [4] Here, we address this demand by exploring novel multilayered nanocomposites (MNCs) with plasmonic nanoparticles and absorbing dyes in thin nonabsorbing shells as supercontrast multimodal photoacoustic (PA) and fluorescent agents in the near-infrared range. [5] Here, we propose and theoretically investigate a novel multilayered heterostructure favoring double EPs for a unique set of material parameters at which forward- and backward-reflection coefficients vanish, respectively. [6] Novel multilayered FeSiCrB–Fe提供了气凝胶、气凝胶复合材料、新型多层复合材料和玻璃泡的热物理数据,适用于从高真空到环境条件下 293 K 和 78 K 的标准测试条件 压力。 [1] 具有梯度结构的新型多层支架为骨组织工程提供了一个有趣的选择。 [2] 本研究开发并数值研究了一种新型多层筛反应器,可促进脱水和水合反应。 [3] 因此,用新型多层胶囊改性的环氧树脂涂层可能对石油和天然气及相关行业中使用的钢部件的腐蚀保护具有吸引力。 [4] 在这里,我们通过探索具有等离子体纳米粒子的新型多层纳米复合材料 (MNC) 和在薄的非吸收壳中吸收染料作为近红外范围内的超对比度多峰光声 (PA) 和荧光剂来满足这一需求。 [5] 在这里,我们提出并在理论上研究了一种新颖的多层异质结构,该结构有利于双 EP,用于一组独特的材料参数,其中前向和后向反射系数分别消失。 [6] 新型多层 FeSiCrB–Fe<inline-formula><tex-math notation="LaTeX">$_{x}$</tex-math></inline-formula>N (<italic>x</italic> = 2 –4) 使用放电等离子烧结 FeSiCrB 非晶带(Metglas 2605SA3 合金)和 Fe<inline-formula><tex-math notation="LaTeX">$_{x}$</tex-math> 制造金属玻璃复合材料</inline-formula>N (<italic>x</italic> = 2-4) 粉末。 [7]