A 3D-printed polypropylene (PP) continuous-photoflow cell based on a modular cartridge system was developed for the photo-oxygenation of 7-aminothieno[3,2-c]pyridin-4(5H)-ones, using ambient air as the sole co-reactant. This strategy takes advantage of the versatility of 3D-printing to construct cost-effective meso-scale reactors. In addition to scalability, a short residence time (tR 2 min) in 100-W
开发了一种基于模块化滤芯系统的3D打印聚
丙烯(PP)连续光流通池,用于使用环境空气作为7-
氨基
噻吩并[3,2- c ]
吡啶4(5 H)-进行光氧合。唯一的共反应物。该策略利用了3D打印的多功能性来构建具有成本效益的中规模反应堆。除了可扩展性之外,在100瓦蓝色LED灯中的短停留时间(t R 2分钟)可最大程度地减少黑暗,不溶性分解产物的形成,这是该技术的明显优势。