Scientists have found a way to use sunflower pollen to develop a 3D printing ink material that could be used to fabricate parts useful for tissue engineering, toxicity testing and drug delivery.

McGill researchers are exploring a new technique that uses 3D printing and hydrogels. It has the potential not only to improve biomedical implants but could also be useful in the development of ...

3D printing technology has the potential to revolutionize the field of biomedicine by providing new ways to meticulously fabricate complex structures like functional human tissues and organs as well ...

A researcher has helped create a new 3D printing approach for shape-changing materials that are likened to muscles, opening the door for improved applications in robotics as well as biomedical and ...

Most methods for manufacturing 3D printer ink involve the addition of various materials to provide strength and structure to the ink. According to new research from Nanyang Technological University, ...

Article ‘Count’ and ‘Share’ for Center of Biomedical Materials 3D Printing National Engineering Laboratory for Polymer Complex Structure Additive Manufacturing based on listed parameters only.

Although 4D printing is considered very promising for various biomedical applications – such as tissue scaffolds, neural scaffolds, grafts and stents, cardiac patches and valves, even bionic ...

Charles R. Goulding and Preeti Sulibhavi connect the dots between a new mass-produced robotic hand, decades of end-effector ...

Scientists at Nanyang Technological University, Singapore (NTU Singapore) have found a way to use sunflower pollen to develop a 3D printing ink material that could be used to fabricate parts useful ...