3D Bioplotter Research Papers

Displaying all papers by F. Zhang (3 results)

Three-Dimensional Printed Bimodal Electronic Skin with High Resolution and Breathability for Hair Growth

ACS Applied Materials & Interfaces 2022 Volume 14, Issue 27, Pages 31493-31501

People with neurological deficits face difficulties perceiving their surroundings, resulting in an urgent need for wearable electronic skin (e-skin) that can monitor external stimuli and temperature changes. However, the monolithic structure of e-skin is not conducive to breathability and hinders hair growth, limiting its wearing comfort. In this work, we prepared fully three-dimensional (3D) printed e-skin that allowed hair penetration and growth. This e-skin also achieved simultaneous pressure and temperature detection and a high tactile resolution of 100 cm–2, which is close to that of human fingertips. The temperature sensor maintained linear measurements within 10–60 °C. The pore microstructure prepared…

Programmable 4D Printing of Photoactive Shape Memory Composite Structures

ACS Applied Materials & Interfaces 2022 Volume 14, Issue 37, Pages 42568-42577

4D printing is an advanced manufacturing technology combining additive manufacturing with smart materials. Based on light-active shape memory composites, smart medical structures with remote control capability, therapeutic function, and biocompatibility are hopefully fabricated by 4D printing. Here, a multifunctional composite with good mechanical properties, biocompatibility, and light-active shape memory performance is prepared by incorporating gold nanoparticles into a shape memory polyurethane matrix. The composites demonstrate a rapid and stable light-thermal effect, which can achieve localized and controlled breast tumor ablation, providing an approach to hyperthermia treatment for cancer cells. By directly bioprinting the composite melt, a series of 4D-printed structures…

4D printed orbital stent for the treatment of enophthalmic invagination

Biomaterials 2022 Volume 291, Article 121886

Currently, the implants used for enophthalmic invagination have the disadvantages of precise filling difficulty, weak filling ability, large surgical wounds, and lack of CT development. Here, a CT-developable orbital stent was manufactured via 4D printing of a shape memory polyurethane composite for enophthalmos treatment. The composite was endowed with good CT development properties via incorporation of gold nanoparticles and nano-hydroxyapatite. Based on the bionic idea and CT reconstruction technique, a 4D printed orbital stent with a bionic honeycomb pore structure and an outer contour matching the orbital coloboma was designed to support the orbital tissue more accurately and stably. CT…