TiN hollow nanocages were successfully synthesized Via Mg-thermal reduction, the possible growth mechanism was also studied at the same time.
通过镁热还原法在高压釜内成功的合成过渡金属氮化钛空心纳米笼,并对其生长的可能的机理进行了讨论。
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Meanwhile, through simply adjusting the side chains, we successfully achieved different surface morphologies of the nanocages and control of their surface distribution behavior.
In the second part, a readily modifiable structure with C3 symmetry was developed to quantitatively build a series of 3D shape-persistent fluorescent nanocages via dynamic covalent chemistry.