Quotes
在科学上没有平坦的大道,只有那些不畏艰险沿着陡峭山路攀登的人,才有希望达到光辉的顶点。
----马克思
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Research Projects
Collaborations
请有兴趣的研究组联系我们。欢迎任何形式的合作,尤其是在自组装、水凝胶以及生物医药等方向的合作。
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Publications
Feng, F.; Shao, Y.; Wu, W.; Li, X.; Hong, C.; Jin, L.; Yue, K.; Zhang, W.-B.; Liu, H.* Crystallization of Precise Side-Chain Giant Molecules with Tunable Sequences and Functionalities. Macromolecules 2021, 54, 11093-11100.
Side-chain giant molecules, constructed from giant monomers by precision synthesis, are viewed as a size-amplified analogue of conventional linear polymers. The molecular accuracy in terms of composition, sequence, topology, and functionality makes these precise macromolecules an ideal platform to investigate the interplay of various molecular parameters in their hierarchical assembly processes. In this study, we studied the crystallization of two sets of amphiphilic side-chain giant molecules with elegantly designed chain sequences and functionalities. When crystallizing from dilute solutions, they form well-defined two-dimensional (2D) crystals with a unique sequence-independent feature. In-depth structural characterization suggested a sandwich-like configuration with head-to-head packing of the side-chain components. Interestingly, the chain stem orientation is supposed to be perpendicular to the normal direction of the nanosheet crystals, which was distinct from the classic folded-chain model of conventional linear polymers. Besides, by intentionally altering the functional groups of the non-crystalline moieties to be non-ionic, cationic, or anionic, we proposed that the solvation effect played a key role in inhibiting the crystal stacking along the surface normal direction and thus in stabilizing the 2D crystals. Our findings revealed the unique crystallization behavior of precise side-chain giant molecules and might provide a strategy to engineer 2D nanomaterials with pre-programmed compositions and functions.