Engineered living materials (ELMs) are a class of materials comprising living cells and a polymer (or biopolymer) network that together afford a function, performance, or property that could not be achieved by the individual components. There are limited means to fabricate ELM bioplastics with ...
Biomaterials have evolved from inert materials that lack interaction with the body to biologically active, instructive materials that host and provide signals to surrounding cells and tissues. Engineered living materials contain living cells (responsive
海外直订Engineered Living Materials 工程生活材料 作者:Srubar III, Wil V.出版社:Springer出版时间:2023年02月 手机专享价 ¥ 当当价 降价通知 ¥1429 配送至 广东佛山市 至 北京市东城区 服务 由“中华商务进口图书旗舰店”发货,并提供售后服务。
PhD position in Engineered living materials for mine waste recovery PhD直招2025秋季 申请时间:2025.04.30截止 报名收藏清单 主办方 帝国理工学院 PhD直招介绍 About the Project Hundreds of billions of tons of copper (Cu) sit idle in difficult to process mine waste sites. Novel solutions are needed ...
Biological systems assemble living materials that are autonomously patterned, can self-repair and can sense and respond to their environment. The field of engineered living materials aims to create novel materials with properties similar to those of natural biomaterials using genetically engineered organisms...
engineered living materials (ELMs) provide a promising solution to combine living organisms with abiotic components, thus facilitating the construction of functional “living” materials. Like natural materials, ELMs possess vitality and hold immense application potential in areas such as medicine, electroni...
Leveraging human cells as materials precursors is a promising approach for fabricating living materials with tissue-like functionalities and cellular programmability. Here we describe a set of cellular units with metabolically engineered glycoproteins that allow cells to tether together to function as macro...
Engineered living building materials (LBMs) use biology to confer multiple functionalities to materials for the built environment. Microorganisms can be leveraged for multiple purposes in the design of LBMs, including increasing the rate of manufacturing, imparting mechanical benefit, and sustaining biolog...
living building materials biomineralization cyanobacteria hyhydrogel structural materials mechanical properties regeneration Introduction Today, microbially induced calcium carbonate (CaCO3) precipitation (MICP) is utilized for soil stabilization,1 in situ concrete crack repair,2, 3, 4 fracture sealing of oil...
Moreover, we delve into advances beyond biomedical applications, where bioassemblies can be manipulated as functional robots and construction materials. Finally, we address the potential challenges and opportunities in the field of engineering living bioassemblies, toward building new design principles for...