2 research outputs found
Bioinspired Hierarchical Surface Structures with Tunable Wettability for Regulating Bacteria Adhesion
To circumvent the influence from varied topographies, the systematic study of wettability regulated Gram-positive bacteria adhesion is carried out on bioinspired hierarchical structures duplicated from rose petal structures. With the process of tuning the interfacial chemical composition of the self-assembled films from supramolecular gelators, the varied wettable surfaces from superhydrophilicity to superhydrophobicity can be obtained. The investigation of Gram-positive bacteria adhesion on the hierarchical surfaces reveals that Gram-positive bacteria adhesion is crucially mediated by peptidoglycan due to its different interaction mechanisms with wettable surfaces. The study makes it possible to systematically study the influence mechanism of wettability regulated bacteria adhesion and provides a sight to make the bioinspired topographies in order to investigate wettability regulated bioadhesion
Convenient Three-Dimensional Cell Culture in Supermolecular Hydrogels
A convenient
three-dimensional cell culture was developed by employing
high swelling property of hybrid hydrogels coassembled from C<sub>2</sub>-phenyl-based supermolecular gelators and sodium hyaluronate.
Imaging and spectroscopic analysis by scanning electron microscopy
(SEM), atomic force microscopy (AFM), transform infrared (FT-IR) spectra
confirm that the hybrid gelators can self-assemble into nanofibrous
hydrogel. The high swelling property of dried gel ensures cell migration
and proliferation inside bulk of the hydrogels, which provides a facial
method to study disease models, the effect of drug dosages, and tissue
culture in vitro