材料科学
发光
纳米晶
纳米技术
表面电荷
液晶
电荷(物理)
杰纳斯
量子点
胶体
碳纤维
极化(电化学)
圆极化
光电子学
合理设计
自组装
手性(物理)
碳量子点
细菌纤维素
化学物理
相(物质)
纤维素
Crystal(编程语言)
碳纳米管
胶体晶体
作者
Baohua Yuan,Junhan Mao,Jiaxin Huo,Yuyi Wang,Peizhen Chen,Cheng Zou,Meina Yu,Yanzi Gao,Yuanwei Chen
标识
DOI:10.1002/adma.202522132
摘要
Surface charge critically influences the self-assembly and functional performance of colloidal liquid crystals. However, in circularly polarized luminescence (CPL) systems, the regulatory role of guest surface charge in their self-assembly remains fundamentally unclear, hindering the rational design of adjustable high-performance CPL materials. Herein, we judiciously synthesize a series of positively and negatively charged carbon dots (P-/N-CDs) with satisfactory solid-state emission and incorporate them into colloidal cellulose nanocrystal (CNC) liquid crystal with phase adjustability via evaporation-induced self-assembly (EISA). By precisely modulating the surface charge of CDs, the resulting P-/N-CD-loaded CNC (P-/N-CDCNC) chiral superstructures exhibit tailorable CPL with luminescence dissymmetry factor values from +0.16 to -0.91. The decisive role of surface charge in the EISA process is further elucidated. In situ microscopy demonstrates divergent charge-directed assembly pathways: N-CDs allow CNC tactoid fusion to proceed, whereas P-CDs arrest fusion through electrostatic crosslinking. This triggers unprecedented Janus P-CDCNC superstructures, leading to side-dependent CPL handedness. Such CDCNC superstructures with different polarization states are readily designed to patterns and sophisticated codes, which offer powerful avenues for high-security anticounterfeiting and multilevel information encryption. This work pioneers guest charge modulation as a universal strategy for controlling chiroptical assembly, overcoming limitations to attain handedness-adjustable, high-performance CPL from natural chiral materials.
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