Key Applications in Medical Technology
Introduction Key Applications in Medical Technology
Barium titanate (BaTiO₃) is a versatile material with significant applications in medical technology due to its biocompatibility, piezoelectric properties, and high dielectric constant. This article explores the various medical applications of BaTiO₃, highlighting its role in advancing medical technology.
Bone Tissue Engineering
BaTiO₃ is extensively researched for its application in bone tissue engineering. Its piezoelectric properties enhance bone cell adhesion and proliferation, which are critical for bone regeneration. BaTiO₃ composite scaffolds, combined with materials like polycaprolactone (PCL), show promise in load-bearing applications. These scaffolds support human osteoblast growth, indicating their potential for clinical applications in bone repair and regeneration
Flexible Pressure Sensors
BaTiO₃, in combination with polydimethylsiloxane (PDMS), is used to create highly sensitive flexible pressure sensors. These sensors are valuable in various fields such as soft robotics, human-machine interfaces, and electronic skin. The sensors benefit from BaTiO₃’s high dielectric constant, which enhances their sensitivity and response time. The technology is adaptable, making it suitable for a wide range of medical applications
Medical Implants
BaTiO₃’s biocompatibility and ability to maintain a charged surface make it an excellent candidate for medical implants. Its incorporation in implants can improve performance and integration with biological tissues. Research into BaTiO₃-based implants aims to leverage these properties to develop advanced solutions for long-term implantation and interaction with human tissues
