Highly Luminescent Covalently Linked Silicon Nanocrystal/ Polystyrene Hybrid Functional Materials: Synthesis, Properties, and Processability

Zhenyu Yang; Mita Dasog; Alexander R. Dobbie; Ross Lockwood; Yanyan Zhi; Al Meldrum; Jonathan G. C. Veinot

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Highly Luminescent Covalently Linked Silicon Nanocrystal/ Polystyrene Hybrid Functional Materials: Synthesis, Properties, and Processability

机译：高发光共价键连接的硅纳米晶/聚苯乙烯杂化功能材料：合成，性能和可加工性

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Silicon nanocrystals (SiNCs) have received much attention because of their exquisitely tunable photoluminescent response, biocompatibility, and the promise that they may supplant their CdSe quantum dot counterparts in many practical applications. One attractive strategy that promises to extend and even enhance the utility of SiNCs is their incorporation into NC/polymer hybrids. Unfortunately, methods employed to prepare hybrid materials of this type from traditional compound semiconductor (e.g., CdSe) quantum dots are not directly transferable to SiNCs because of stark differences in surface chemistry. Herein, the preparation of chemically resistant SiNC/polystyrene hybrids exhibiting exquisitely tunable photoluminescence is reported and material processability is demonstrated by preparing micro and nanoscale architectures.

机译：硅纳米晶体（SiNCs）由于其可微调的光致发光响应，生物相容性以及有望在许多实际应用中取代其CdSe量子点对应物而备受关注。一种有望扩展甚至增强SiNC实用性的有吸引力的策略是将其并入NC /聚合物混合体中。不幸的是，由于表面化学上的明显差异，用于从传统化合物半导体（例如CdSe）量子点制备这种类型的杂化材料的方法不能直接转移到SiNCs。在此，报道了显示出可微调的光致发光的耐化学腐蚀的SiNC /聚苯乙烯杂化物的制备，并且通过制备微米和纳米级的体系结构证明了材料的可加工性。

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《Advanced Functional Materials》 |2014年第10期|1345-1353|共9页
作者
Zhenyu Yang; Mita Dasog; Alexander R. Dobbie; Ross Lockwood; Yanyan Zhi; Al Meldrum; Jonathan G. C. Veinot;
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Department of Chemistry University of Alberta Edmonton, Alberta, T6G 2G2, Canada;

Department of Chemistry University of Alberta Edmonton, Alberta, T6G 2G2, Canada;

Department of Chemistry University of Alberta Edmonton, Alberta, T6G 2G2, Canada;

Department of Physics University of Alberta Edmonton, Alberta, T6G 2G2, Canada;

Department of Physics University of Alberta Edmonton, Alberta, T6G 2G2, Canada;

Department of Physics University of Alberta Edmonton, Alberta, T6G 2G2, Canada;

Department of Chemistry University of Alberta Edmonton, Alberta, T6G 2G2, Canada;

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Highly Luminescent Covalently Linked Silicon Nanocrystal/ Polystyrene Hybrid Functional Materials: Synthesis, Properties, and Processability

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