自愈水凝胶
材料科学
胶粘剂
表面改性
粘附
纳米技术
化学工程
图层(电子)
细胞粘附
溶剂
化学
高分子化学
有机化学
复合材料
工程类
作者
Jeffrey Chen,Kelly Lim,Stephen B. Bandini,Greg M. Harris,Joshua A. Spechler,Craig B. Arnold,Romain Fardel,Jean E. Schwarzbauer,Jeffrey Schwartz
标识
DOI:10.1021/acsami.9b04023
摘要
A two-step synthesis is described for activating the surface of a fully hydrated hydrogel that is of interest as a possible scaffold for neural regeneration devices. The first step exploits the water content of the hydrogel and the hydrophobicity of the reaction solvent to create a thin oxide layer on the hydrogel surface using a common titanium or zirconium alkoxide. This layer serves as a reactive interface that enables rapid transformation of the hydrophilic, cell-nonadhesive hydrogel into either a highly hydrophobic surface by reaction with an alkylphosphonic acid, or into a cell-adhesive one using a (α,ω-diphosphono)alkane. Physically imprinting a mask ("debossing") into the hydrogel, followed by a two-step surface modification with a phosphonate, allows for patterning its surface to create spatially defined, cell-adhesive regions.
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