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Multifunctional Reversible Self-Assembled Structures of Cellulose-Derived Phase-Change Nanocrystals.


ABSTRACT: Owing to advantageous properties attributed to well-organized structures, multifunctional materials with reversible hierarchical and highly ordered arrangement in solid-state assembled structures have drawn tremendous interest. However, such materials rarely exist. Based on the reversible phase transition of phase-change materials (PCMs), phase-change nanocrystals (C18-UCNCs) are presented herein, which are capable of self-assembling into well-ordered hierarchical structures. C18-UCNCs have a core-shell structure consisting of a cellulose crystalline core that retains the basic structure and a soft shell containing octadecyl chains that allow phase transition. The distinct core-shell structure and phase transition of octadecyl chains allow C18-UCNCs to self-assemble into flaky nano/microstructures. These self-assembled C18-UCNCs exhibit efficient thermal transport and light-to-thermal energy conversion, and thus are promising for thermosensitive imaging. Specifically, flaky self-assembled nano/microstructures with manipulable surface morphology, surface wetting, and optical properties are thermoreversible and show thermally induced self-healing properties. By using phase-change nanocrystals as a novel group of PCMs, reversible self-assembled multifunctional materials can be engineered. This study proposes a promising approach for constructing self-assembled hierarchical structures by using phase-change nanocrystals and thereby significantly expands the application of PCMs.

SUBMITTER: Wang Y 

PROVIDER: S-EPMC11468950 | biostudies-literature | 2021 Jan

REPOSITORIES: biostudies-literature

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Multifunctional Reversible Self-Assembled Structures of Cellulose-Derived Phase-Change Nanocrystals.

Wang Yonggui Y   Qiu Zhe Z   Lang Zhen Z   Xie Yanjun Y   Xiao Zefang Z   Wang Haigang H   Liang Daxin D   Li Jian J   Zhang Kai K  

Advanced materials (Deerfield Beach, Fla.) 20201206 3


Owing to advantageous properties attributed to well-organized structures, multifunctional materials with reversible hierarchical and highly ordered arrangement in solid-state assembled structures have drawn tremendous interest. However, such materials rarely exist. Based on the reversible phase transition of phase-change materials (PCMs), phase-change nanocrystals (C18-UCNCs) are presented herein, which are capable of self-assembling into well-ordered hierarchical structures. C18-UCNCs have a co  ...[more]

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