Liquid-liquid extraction: a universal method to synthesize liquid colloidal photonic crystals

The liquid colloidal photonic crystal (PC) is a new kind of photonic structure with attractive properties, such as fluidity, structural metastability, and reversibility in colloidal assembly. However, its controllable synthesis is a big challenge, because it is very difficult to keep all the particl...

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Published inJournal of materials chemistry. C, Materials for optical and electronic devices Vol. 8; no. 3; pp. 989 - 995
Main Authors Wang, Chuan, Zhang, Xin, Zhu, Huimin, Fu, Qianqian, Ge, Jianping
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 2020
Subjects
Colloids
Crystal structure
Crystals
Digital imaging
Liquid phases
Phase separation
Photonic crystals
Room temperature
Solvents
Synthesis
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Abstract The liquid colloidal photonic crystal (PC) is a new kind of photonic structure with attractive properties, such as fluidity, structural metastability, and reversibility in colloidal assembly. However, its controllable synthesis is a big challenge, because it is very difficult to keep all the particles well-dispersed in a highly concentrated colloidal system, and then assemble them into colloidal crystals. In this work, a liquid-liquid extraction (LLE) method has been developed to produce liquid PCs via simple mixing and liquid phase separation at room temperature. Single- and two-component extractants are used to extract part of the solvent from a diluted colloidal solution, which effectively concentrates the colloidal solution without inducing any aggregation and produce highly crystalline liquid PCs by spontaneous precipitation. Compared to the conventional methods, this new LLE process provides a quick, convenient, scalable and universal synthesis of liquid PCs composed of different colloidal particles and solvents, which lays a solid basis for its application in structural-color displays, sensors, and coatings. A liquid-liquid extraction method is developed to produce liquid PCs at room temperature. The colloidal particles precipitate to form liquid PCs due to the extraction of solvent and the supersaturation of particles.
AbstractList The liquid colloidal photonic crystal (PC) is a new kind of photonic structure with attractive properties, such as fluidity, structural metastability, and reversibility in colloidal assembly. However, its controllable synthesis is a big challenge, because it is very difficult to keep all the particles well-dispersed in a highly concentrated colloidal system, and then assemble them into colloidal crystals. In this work, a liquid–liquid extraction (LLE) method has been developed to produce liquid PCs via simple mixing and liquid phase separation at room temperature. Single- and two-component extractants are used to extract part of the solvent from a diluted colloidal solution, which effectively concentrates the colloidal solution without inducing any aggregation and produce highly crystalline liquid PCs by spontaneous precipitation. Compared to the conventional methods, this new LLE process provides a quick, convenient, scalable and universal synthesis of liquid PCs composed of different colloidal particles and solvents, which lays a solid basis for its application in structural-color displays, sensors, and coatings.
The liquid colloidal photonic crystal (PC) is a new kind of photonic structure with attractive properties, such as fluidity, structural metastability, and reversibility in colloidal assembly. However, its controllable synthesis is a big challenge, because it is very difficult to keep all the particles well-dispersed in a highly concentrated colloidal system, and then assemble them into colloidal crystals. In this work, a liquid–liquid extraction (LLE) method has been developed to produce liquid PCs via simple mixing and liquid phase separation at room temperature. Single- and two-component extractants are used to extract part of the solvent from a diluted colloidal solution, which effectively concentrates the colloidal solution without inducing any aggregation and produce highly crystalline liquid PCs by spontaneous precipitation. Compared to the conventional methods, this new LLE process provides a quick, convenient, scalable and universal synthesis of liquid PCs composed of different colloidal particles and solvents, which lays a solid basis for its application in structural-color displays, sensors, and coatings.
The liquid colloidal photonic crystal (PC) is a new kind of photonic structure with attractive properties, such as fluidity, structural metastability, and reversibility in colloidal assembly. However, its controllable synthesis is a big challenge, because it is very difficult to keep all the particles well-dispersed in a highly concentrated colloidal system, and then assemble them into colloidal crystals. In this work, a liquid-liquid extraction (LLE) method has been developed to produce liquid PCs via simple mixing and liquid phase separation at room temperature. Single- and two-component extractants are used to extract part of the solvent from a diluted colloidal solution, which effectively concentrates the colloidal solution without inducing any aggregation and produce highly crystalline liquid PCs by spontaneous precipitation. Compared to the conventional methods, this new LLE process provides a quick, convenient, scalable and universal synthesis of liquid PCs composed of different colloidal particles and solvents, which lays a solid basis for its application in structural-color displays, sensors, and coatings. A liquid-liquid extraction method is developed to produce liquid PCs at room temperature. The colloidal particles precipitate to form liquid PCs due to the extraction of solvent and the supersaturation of particles.
Author Zhang, Xin
Fu, Qianqian
Ge, Jianping
Zhu, Huimin
Wang, Chuan
AuthorAffiliation Shanghai Key Laboratory of Green Chemistry and Chemical Processes
School of Chemistry and Molecular Engineering
East China Normal University
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Electronic supplementary information (ESI) available: The digital photos, optical microscopic images, and reflection spectra of liquid PCs and the calculation of extraction efficiency. See DOI
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Snippet The liquid colloidal photonic crystal (PC) is a new kind of photonic structure with attractive properties, such as fluidity, structural metastability, and...
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SubjectTerms Colloids
Crystal structure
Crystals
Digital imaging
Liquid phases
Phase separation
Photonic crystals
Room temperature
Solvents
Synthesis
Title Liquid-liquid extraction: a universal method to synthesize liquid colloidal photonic crystals
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