Microbotics

Microbotics-This chapter introduces the fascinating realm of microbotics, explaining its significance in the development of smallscale robots capable of performing tasks on the micro and nano level

Strouhal number-Here, the Strouhal number is examined, showcasing its relevance to the motion of microrobots and how it influences their design and efficiency in fluid environments

Nanorobotics-This chapter explores the emerging field of nanorobotics, focusing on the manipulation of matter at the nanoscale for medical, industrial, and scientific applications.

Nanomotor-The concept of nanomotors is introduced, exploring their role in powering microscopic robots and their potential in diverse fields, from medicine to environmental monitoring

Metin Sitti-A closer look at the contributions of Metin Sitti to the world of robotics, emphasizing his innovative work in robotic miniaturization and biomimicry

Targeted drug delivery-This chapter explores how robotic systems are revolutionizing drug delivery, allowing for precise and controlled release of medication to specific locations in the body

MEMS electrothermal actuator-A discussion of MEMS electrothermal actuators, their design principles, and their role in the movement and control of microrobots, particularly in medical applications

Bacterial motility-Bacterial motility is explored in this chapter, illustrating how understanding bacteria’s natural movement has inspired the design of biohybrid robots for medical use

Robotic sensing-A deep dive into robotic sensing technologies, emphasizing how sensory systems are critical for the functionality and navigation of microrobots in various environments

University of Waterloo Nano Robotics Group-An overview of the cuttingedge research conducted by the University of Waterloo Nano Robotics Group, providing insight into their advancements in nanorobotics

Bioinspired robotics-This chapter highlights bioinspired robotics, focusing on how nature’s design principles are shaping the development of efficient, adaptive microrobots

Robotic sperm-A central chapter, discussing the development of robotic sperm and its potential applications in reproductive technologies, highlighting its significance for overcoming infertility challenges

Robot research initiative-This chapter reviews various global initiatives aimed at advancing robotic technologies, particularly in the field of medical and bioengineering applications

Bradley Nelson-The contributions of Bradley Nelson are examined, particularly his work in microrobots for medical applications, including their use in drug delivery and diagnostic systems

Soft robotics-Soft robotics is explored here, focusing on the potential for creating flexible, adaptive robots that mimic biological systems and their applications in medicine and surgery

Simone SchürleFinke-The work of Simone SchürleFinke in the development of biohybrid robots is analyzed, illustrating her contributions to the evolution of medical robotics

Protist locomotion-This chapter examines protist locomotion and how understanding these organisms' movement patterns has informed the design of robotic swimmers and medical robots

Biohybrid microswimmer-A look into biohybrid microswimmers, exploring their unique ability to combine biological tissue with mechanical structures for medical and environmental purposes

Microswimmer-Focusing on the development and applications of microswimmers, this chapter highlights their potential in navigating fluid environments and performing targeted tasks in the body

Wei Gao (engineer)-The contributions of Wei Gao, an engineer known for his work in microrobotics and bioengineering, are discussed, particularly his role in advancing medical robotics