Jun Shi scite author profile

The aptitude of a cell to adhere, migrate, and differentiate on a compact substrate or scaffold is important in the field of tissue engineering and biomaterials. It is well known that cell behavior can be controlled and guided through the change in micro- and nano-scale topographic features. In this work, we intend to demonstrate that special topographic features that control wettability may also have an important role in the biological performance of biodegradable substrates. Poly(L-lactic acid) surfaces with superhydrophobic characteristics were produced, based on the so-called Lotus effect, exhibiting dual micro- and nano-scale roughness. The water contact angle could be higher than 150 degrees and a value of that order could be kept even upon immersion in a simulated body fluid solution for more than 20 days. Such water repellent surfaces were found to prevent adhesion and proliferation of bone marrow derived cells previously isolated from the femurs of 6-week-old male Wistar rats, when compared with smoother surfaces prepared by simple solvent casting. Such results demonstrate that these superhydrophobic surfaces may be used to control cell behavior onto biodegradable substrates.

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Surface coordination of black phosphorene for excellent stability, flame retardancy and thermal conductivity in epoxy resin

Meng

et al. 2020

Chemical Engineering Journal

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Green reduction of graphene oxide by polydopamine to a construct flexible film: superior flame retardancy and high thermal conductivity

et al. 2017

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Jun Shi

Bioinspired superhydrophobic poly(L‐lactic acid) surfaces control bone marrow derived cells adhesion and proliferation

Surface coordination of black phosphorene for excellent stability, flame retardancy and thermal conductivity in epoxy resin

Green reduction of graphene oxide by polydopamine to a construct flexible film: superior flame retardancy and high thermal conductivity

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