Hydrogel - Advanced Materials for Innovative Robotic Applications in Reproductive Health
Fouad Sabry
Publisher: One Billion Knowledgeable
Summary
"Hydrogel" is an essential read for anyone involved in the rapidly evolving field of robotics, biomaterials, and tissue engineering. This book explores the critical role hydrogels play in the development of "Robotic Sperm," offering cuttingedge insights into material science, biopolymers, and the future of medical technology. Whether you're a professional in the field, a student pursuing advanced degrees, or simply an enthusiast seeking to understand the intersection of science and robotics, this book is a musthave resource. The value of the knowledge contained within far outweighs the cost, making it an invaluable asset for those looking to deepen their understanding of how hydrogels are shaping the future of robotics Hydrogel-This chapter introduces hydrogels, explaining their structure, properties, and relevance to the field of robotic sperm Biopolymer-An indepth discussion of biopolymers and their critical role in the development of hydrogels for robotic applications Gel-Explore the chemistry and physical properties of gels, focusing on their applications in robotic sperm technology Chitosan-Understand the unique properties of chitosan, a biopolymer that enhances the functionality of hydrogels in robotics Alginic acid-This chapter focuses on alginic acid's contribution to creating biocompatible hydrogels used in robotic sperm applications Nanofiber-A closer look at the role of nanofibers in strengthening hydrogels and enhancing their performance in robotic systems Biomaterial-Learn about the different biomaterials integrated with hydrogels to support robotic sperm functionality Foreign body reaction-Examine how the body’s immune response to foreign materials impacts the development and use of hydrogels in robotic sperm Thiomer-Investigate thiomers and their application in creating hydrogels with improved properties for use in medical robotics Poly(Nisopropylacrylamide)-Delve into the specific properties of this temperatureresponsive polymer used in advanced hydrogel technology Temperatureresponsive polymer-Explore how hydrogels' response to temperature changes makes them ideal for dynamic robotic applications Nanogel-An introduction to nanogels, discussing their potential to revolutionize the use of hydrogels in robotics and drug delivery systems Fibrin scaffold-This chapter explores fibrin scaffolds and their integration with hydrogels to improve cellular interaction in robotic systems Mechanical properties of biomaterials-Understand how the mechanical properties of biomaterials affect the performance of hydrogels in robotic sperm technology Selfhealing hydrogels-Learn about selfhealing hydrogels and how their ability to repair themselves enhances the durability of robotic sperm systems Nanocomposite hydrogels-Discover how nanocomposite materials combined with hydrogels offer enhanced performance in robotics Hydrogel dressing-Investigate the use of hydrogel dressings in medical robotics, particularly in the development of robotic sperm technology Bioink-This chapter covers the importance of bioinks in 3D printing for the creation of complex robotic sperm structures Hydrogel fiber-Learn how hydrogel fibers contribute to the flexibility and functionality of robotic systems, particularly in microrobotics Bioprinting drug delivery-Explore the cuttingedge application of bioprinting in drug delivery systems using hydrogels in robotic sperm research Ultrasoundtriggered drug delivery using stimuliresponsive hydrogels-This chapter discusses innovative ultrasoundtriggered drug delivery systems powered by hydrogels
Available since: 04/03/2025.
Print length: 280 pages.
