“微小但刚硬的晶体显示了天然丝迅速对断裂的化学键进行重组织的能力,同时作为‘温和地’失灵的一种结果——就是说,逐渐失灵比突然失灵要好,”研究生凯滕解释说。
“Small yet rigid crystals showed the ability to quickly re-form their broken bonds, and as a result fail ‘gracefully’ — that is, gradually rather than suddenly,” graduate student Keten explains.
钻石中的碳原子同它们的相邻原子形成“三维的”化学键,形成了一个坚固的、金字塔般的重复性晶体结构。
The carbon atoms in a diamond form "3-D" bonds with their neighbors, resulting in a sturdy, pyramidlike, repeating crystalline structure.
运用量子化学、晶体场及化学成键理论,深入分析了中间化合物及一氧化钛的相对稳定性。
The relative stabilities of intermediate compounds and titanium monoxide were examined deeply with quantum chemistry, crystal field and chemical bond theory.
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