Growing Living Composites with Ordered Microstructures and Exceptional Mechanical Properties
An Xin, Yipin Su, Shengwei Feng, Minliang Yan, Kunhao Yu, Zhangzhengrong Feng, Kyung Hoon Lee, Lizhi Sun, Qiming Wang
Abstract
Living creatures are continuous sources of inspiration for designing synthetic materials. However, living creatures are typically different from synthetic materials because the former consist of living cells to support their growth and regeneration. Although natural systems can grow materials with sophisticated microstructures, how to harness living cells to grow materials with predesigned microstructures in engineering systems remains largely elusive. Here, an attempt to exploit living bacteria and 3D-printed materials to grow bionic mineralized composites with ordered microstructures is reported. The bionic composites exhibit outstanding specific strength and fracture toughness, which are comparable to natural composites, and exceptional energy absorption capability superior to both natural and artificial counterparts. This report opens the door for 3D-architectured hybrid synthetic-living materials with living ordered microstructures and exceptional properties.