Open AccessEfficient Fabrication of Pure, Single-Chain Janus Particles through Their Exclusive Self-Assembly in Mixtures with Their Analogues
Author(s) -
Li Jiang,
Mingxiu Xie,
Jinkang Dou,
Haodong Li,
Xiayun Huang,
Daoyong Chen
Publication year - 2018
Publication title -
acs macro letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.966
H-Index - 92
ISSN - 2161-1653
DOI - 10.1021/acsmacrolett.8b00503
Subject(s) - janus , janus particles , fabrication , copolymer , materials science , self assembly , suspension (topology) , dissociation (chemistry) , solvent , particle (ecology) , nanotechnology , chemical engineering , crystallography , chemical physics , composite material , chemistry , polymer , organic chemistry , medicine , alternative medicine , mathematics , oceanography , pathology , homotopy , geology , pure mathematics , engineering
We report the first example of the fabrication of pure, single-chain Janus particles (SCJPs). The SCJPs were prepared by double-cross-linking an A- b -B diblock copolymer in a common solvent. Inevitably, the double-cross-linking led to a mixture containing not only SCJPs but also multichain particles and irregular single-chain particles. Under well-controlled conditions, the SCJPs in the mixture self-assemble with high exclusivity to form regularly structured macroscopic assemblies (MAs) with a crystal-like appearance that precipitate from the suspension. Pure SCJPs that are uniform in size, shape and Janus structure were efficiently prepared by collection and dissociation of the MAs. Block copolymers with different structural parameters were successfully used for the exclusive self-assembly (ESA), and pure SCJPs with varied structural parameters were produced, confirming the reliability of the ESA method.
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