传统的立体光固化成型(SLA)技术采用逐层固化的方式构造三维物体,存在系统复杂、打印速度慢、难以规模化应用等问题。2015年3月,《Science》封面报道了一种基于氧阻聚效应的连续液面生长技术(CLIP),该技术利用一种透气特氟龙薄膜和氧气构造一层液态死区,实现了连续光固化3D打印,与传统的SLA技术相比,速度至少提高了100倍,最高速度可达500mm/h。近期,中国科学院福建物质结构研究所 The traditional solid stereolithography (SLA) technology uses layer-by-layer curing to construct three-dimensional objects, which has the problems of complex system, slow printing speed and difficulty of large-scale application. In March 2015, the cover of Science reported a continuous liquid level growth (CLIP) technique based on the oxygen barrier effect, which uses a gas-permeable Teflon film and oxygen to create a liquid dead zone to achieve continuous Light-cured 3D printing, at least 100 times faster than traditional SLA technology, with speeds up to 500mm / h. Recently, Fujian Institute of Material Structure, Chinese Academy of Sciences