光化学反应在生物材料表面修饰中的应用

生物医用材料的表界面设计在组织工程、生物医疗器械、生物传感与检测、生物芯片等领域越来越重要,深入理解材料性质,尤其是表界面性质,对生物材料研发具有一定指导作用。在生物材料表界面修饰的各种方法中,光化学修饰方法简单高效,且具有时空可控性和非侵入性等优点,已成为生物材料表界面修饰中的热点研究领域之一。本综述在介绍近年来发展的生物材料表面光化学修饰方法的基础上,集中介绍其在组织再生材料(仿细胞外基质界面、硬度调控薄膜凝胶、图案化和梯度表面、光响应动态表面)、微液滴阵列表面、高通量生物芯片等领域的应用,并进一步展望了光化学表面修饰在生物医用界面研究中的关键挑战和发展方向。     

Optimization of a poly (p-phenylene benzobisoxazole)-based light-emitting device with a complex cathode structure

In this work,we report the preparation of a series of electroluminescent(EL)devices based on a high-performance polymer,poly(p-phenylene benzobisoxazole)(PBO),and their optoelectronic properties,which have been rarely explored.The device structure is optimised using a complex cathode structure of tris-(8-hydoxyquinoline)aluminium(Alq3)/LiF/Al.By tuning the thickness of the Alq3layer,we improve the device efficiency dramatically in an optimized condition.Further analysis reveals that the Alq3layer in the complex cathode structure acts as a hole blocker in addition to its electron-injection role.A green light emission with a maximum brightness of 8.7×103cd/m2and a moderate current efficiency of 4.8 cd/A is obtained.These values are the highest ever reported for PBO devices.The high operational stability demonstrated by the present device makes it a promising tool for display and lighting applications.A new material is added to the selection of polymers used in this field up to now.