High-speed on-demand 3D printed bioresorbable vascular scaffolds
HOT Ware, AC Farsheed, B Akar, C Duan… - Materials Today …, 2018 - Elsevier
Recent development of the high-resolution Micro-Continuous Liquid Interface Production
(μCLIP) process has enabled 3D printing of biomedical devices with micron-scale precision …
(μCLIP) process has enabled 3D printing of biomedical devices with micron-scale precision …
High-speed on-demand 3D printed bioresorbable vascular scaffolds
HOT Ware, AC Farsheed, B Akar… - Materials Today …, 2018 - asu.elsevierpure.com
Recent development of the high-resolution Micro-Continuous Liquid Interface Production
(μCLIP) process has enabled 3D printing of biomedical devices with micron-scale precision …
(μCLIP) process has enabled 3D printing of biomedical devices with micron-scale precision …
High-speed on-demand 3D printed bioresorbable vascular scaffolds
HOT Ware, AC Farsheed, B Akar… - Materials Today …, 2018 - scholars.northwestern.edu
Recent development of the high-resolution Micro-Continuous Liquid Interface Production
(μCLIP) process has enabled 3D printing of biomedical devices with micron-scale precision …
(μCLIP) process has enabled 3D printing of biomedical devices with micron-scale precision …