Helical Micropillar Processed by One-Step 3D Printing for Solar Thermal Conversion.
Xibiao LiBaichen YeLan JiangXiaowei LiYang ZhaoLiangti QuPeng YiTaoyong LiMin LiLuqi LiAndong WangXiangyu ZhangJiafang LiPublished in: Small (Weinheim an der Bergstrasse, Germany) (2024)
Solar thermal utilization has broad applications in a variety of fields. Currently, maximizing the photo-thermal conversion efficiency remains a research hotspot in this field. The exquisite plant structures in nature have greatly inspired human structural design across many domains. In this work, inspired by the photosynthesis of helical grass, a HM type solar absorber made in graphene-based composite sheets is used for solar thermal conversion. The unique design promoted more effective solar energy into thermal energy through multiple reflections and scattering of solar photons. Notably, the Helical Micropillar (HM) is fabricated using a one-step projection 3D printing process based on a special 3D helical beam. As a result, the solar absorber's absorbance value can reach 0.83 in the 400-2500 nm range, and the surface temperature increased by ≈128.3% relative to the original temperature. The temperature rise rate of the solar absorber reached 22.4 °C min -1 , demonstrating the significant potential of the HM in practical applications of solar thermal energy collection and utilization.