Thermally-induced reversible structural isomerization in colloidal semiconductor CdS magic-size clusters

被引:0
作者
Baowei Zhang
Tingting Zhu
Mingyang Ou
Nelson Rowell
Hongsong Fan
Jiantao Han
Lei Tan
Martin T. Dove
Yang Ren
Xiaobing Zuo
Shuo Han
Jianrong Zeng
Kui Yu
机构
[1] Sichuan University,Institute of Atomic and Molecular Physics
[2] Huazhong University of Science & Technology,School of Materials Science and Engineering
[3] National Research Council of Canada,School of Physics and Astronomy
[4] Engineering Research Center in Biomaterials,School of Physical Science and Technology
[5] Sichuan University,X
[6] Queen Mary University of London,ray Science Division, Advanced Photon Source
[7] Sichuan University,Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics
[8] Argonne National Laboratory,School of Chemical Engineering
[9] Chinese Academy of Sciences,undefined
[10] Sichuan University,undefined
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Nature Communications | / 9卷
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摘要
Structural isomerism of colloidal semiconductor nanocrystals has been largely unexplored. Here, we report one pair of structural isomers identified for colloidal nanocrystals which exhibit thermally-induced reversible transformations behaving like molecular isomerization. The two isomers are CdS magic-size clusters with sharp absorption peaks at 311 and 322 nm. They have identical cluster masses, but slightly different structures. Furthermore, their interconversions follow first-order unimolecular reaction kinetics. We anticipate that such isomeric kinetics are applicable to a variety of small-size functional nanomaterials, and that the methodology developed for our kinetic study will be helpful to investigate and exploit solid–solid transformations in other semiconductor nanocrystals. The findings on structural isomerism should stimulate attention toward advanced design and synthesis of functional nanomaterials enabled by structural transformations.
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