Research and Clinical Applications of Selective Laser Melted Tantalum Bone Plates Academic Background In the field of orthopedic implants, titanium (Ti)-based alloys and tantalum (Ta) are widely used due to their high biocompatibility. Titanium-based alloys are typically used to manufacture load-bearing implants, such as bone plates and femoral ste...

Application of Double Gyroid Titanium Alloy Scaffolds Based on Triply Periodic Minimal Surface Structures in Bone Repair Academic Background Bone defect repair is a significant challenge in the field of orthopedics, especially in cases of critical-size bone defects caused by trauma, tumors, inflammation, and other diseases. Currently, the commonly ...

Research on Magnesium and Gallium Co-loaded Microspheres Accelerating Bone Repair Academic Background Bone defects are a common clinical challenge, often caused by infection, tumor resection, or mechanical trauma. Bone defects not only affect patients’ quality of life but may also lead to functional loss. Although bone grafting is currently the pri...

Research on Rapid 3D Assembly of Liquid Metal Microdroplets in Flexible Electronics for Electrical Interconnection Introduction: Research Background and Significance As flexible electronics find widespread applications in fields such as soft robotics, wearable electronics, and flexible displays, achieving electrical interconnection across layers of...

Study on the Piezoresistivity of Cr-Doped V₂O₃ Thin Film for MEMS Sensor Applications Academic Background Piezoresistive microelectromechanical systems (MEMS) sensors are devices that utilize the piezoresistive effect of a material to convert stress changes, induced by the physical property being observed, into resistance changes. These sensors, su...