作者
Yuxiang Zhu,Shenghan Guo,Dharneedar Ravichandran,Arunachalam Ramanathan,Martin Taylor Sobczak,Adriano Sacco,Dhanush Patil,Sri Vaishnavi Thummalapalli,Tiffany V. Pulido,Jessica N. Lancaster,Johnny Yi,Jeffrey L. Cornella,David G. Lott,Xiangfan Chen,Xuan Mei,Yu Shrike Zhang,Linbing Wang,Xianqiao Wang,Yiping Zhao,Mohammad K. Hassan,Lindsay B. Chambers,Taylor G. Theobald,Sui Yang,Liang Liang,Kenan Song
摘要
Abstract 3D printing, also known as additive manufacturing, holds immense potential for rapid prototyping and customized production of functional health‐related devices. With advancements in polymer chemistry and biomedical engineering, polymeric biomaterials have become integral to 3D‐printed biomedical applications. However, there still exists a bottleneck in the compatibility of polymeric biomaterials with different 3D printing methods, as well as intrinsic challenges such as limited printing resolution and rates. Therefore, this review aims to introduce the current state‐of‐the‐art in 3D‐printed functional polymeric health‐related devices. It begins with an overview of the landscape of 3D printing techniques, followed by an examination of commonly used polymeric biomaterials. Subsequently, examples of 3D‐printed biomedical devices are provided and classified into categories such as biosensors, bioactuators, soft robotics, energy storage systems, self‐powered devices, and data science in bioplotting. The emphasis is on exploring the current capabilities of 3D printing in manufacturing polymeric biomaterials into desired geometries that facilitate device functionality and studying the reasons for material choice. Finally, an outlook with challenges and possible improvements in the near future is presented, projecting the contribution of general 3D printing and polymeric biomaterials in the field of healthcare.