Tao Sarah L, Popat Ketul C, Norman James J, Desai Tejal A
Department of Physiology, Division of Bioengineering, University of California-San Francisco, San Francisco, California 94158, USA.
Langmuir. 2008 Mar 18;24(6):2631-6. doi: 10.1021/la703066z. Epub 2008 Feb 15.
SU-8 is a chemically amplified, epoxy-based negative photoresist typically used for producing ultrathick resist layers during device manufacturing in the semiconductor industry. As a simple resist, SU-8 has garnered attention as a possible material for a variety of biomedical applications, including tissue engineering, drug delivery, as well as cell-based screening and sensing. However, as a hydrophobic material, the use of SU-8 is limited due to a high degree of nonspecific adsorption of biomolecules, as well as limited cell attachment. In this work, surface chemistry is utilized to modify the SU-8 surface by covalently attaching poly(ethylene glycol) (PEG) to increase biofunctionality and improve its nonfouling properties. Different molecular weights and concentrations of PEG were used to form films of various grafting densities on SU-8 surfaces. X-ray photoelectron spectroscopy (XPS) was used to verify the presence of PEG moieties on the SU-8 surface. High-resolution C1s spectra show that, with an increase in concentration and immobilization time, the grafting density of PEG also increases. Further, a standard overlayer model was used to calculate the thickness of the PEG films formed. The effect of PEG-modified SU-8 was examined in terms of protein adsorption on the surface and fibroblast-surface interactions.
SU-8是一种化学放大的、基于环氧树脂的负性光刻胶,通常用于半导体行业器件制造过程中制备超厚光刻胶层。作为一种简单的光刻胶,SU-8作为一种可能用于多种生物医学应用的材料而受到关注,这些应用包括组织工程、药物递送以及基于细胞的筛选和传感。然而,作为一种疏水性材料,由于生物分子的高度非特异性吸附以及有限的细胞附着,SU-8的使用受到限制。在这项工作中,利用表面化学通过共价连接聚乙二醇(PEG)来修饰SU-8表面,以增加生物功能并改善其抗污染性能。使用不同分子量和浓度的PEG在SU-8表面形成具有不同接枝密度的薄膜。利用X射线光电子能谱(XPS)验证SU-8表面PEG部分的存在。高分辨率C1s光谱表明,随着浓度和固定时间的增加,PEG的接枝密度也增加。此外,使用标准覆盖层模型计算形成的PEG薄膜的厚度。从表面上的蛋白质吸附和成纤维细胞与表面的相互作用方面研究了PEG修饰的SU-8的效果。
