Micromotor: Advancing Biohybrid Propulsion for NextGeneration Nanoscale Systems
About this ebook
Chapters Brief Overview:
1: Micromotor: The fundamentals of micromotors and their role in the rapidly advancing field of nanotechnology are explored.
2: Microswimmer: Delving into the selfpropelling nature of microswimmers, this chapter demonstrates their potential in various fields.
3: Nanoremediation: Nanomotors' potential in environmental cleanup through nanoremediation is analyzed, showcasing their importance.
4: Clustering of selfpropelled particles: This chapter focuses on how selfpropelled particles cluster together, enhancing their applications.
5: Günther Rupprechter: Learn about Günther Rupprechter's significant contributions to the nanomotor research field and their implications.
6: Green photocatalyst: The book explores the role of green photocatalysts in energy efficiency, crucial for sustainability efforts.
7: Selfpropelled particles: A deep dive into the mechanics of selfpropelled particles and their transformative capabilities.
8: Janus particles: The unique properties of Janus particles and their diverse applications in science and industry are discussed.
9: Pollution from nanomaterials: This chapter highlights the environmental challenges posed by nanomaterials and how nanomotors can help mitigate them.
10: Titanium dioxide: Titanium dioxide's role in photocatalysis is explored, offering insights into its relevance for energy production.
11: Cerium(IV) oxide: Investigating cerium(IV) oxide's capabilities in catalysis, this chapter underscores its impact on nanomotor technologies.
12: Photocatalysis: The importance of photocatalysis in energy production and environmental remediation is examined in this chapter.
13: Platinum nanoparticle: The versatile applications of platinum nanoparticles in catalysis and energy efficiency are discussed.
14: Vivek Polshettiwar: This chapter introduces Vivek Polshettiwar and his groundbreaking work on nanomotors in chemical reactions.
15: Photoelectrochemical cell: Understanding the role of photoelectrochemical cells in energy generation and their integration with nanomotors.
16: Electrocatalyst: Electrocatalysts' role in enhancing the efficiency of chemical reactions is analyzed, with a focus on nanomotors.
17: Nanoparticle: A broad exploration of nanoparticles and their significance in the context of nanomotor technologies.
18: Nanomotor: Returning to the core of the book, this chapter revisits the evolution of nanomotors and their future.
19: Electroosmotic pump: The electroosmotic pump and its potential for precision in fluid dynamics are explored in depth.
20: Energy applications of nanotechnology: The chapter examines how nanotechnology is driving innovation in energy systems.
21: Collective motion: The physics of collective motion in nanomotors is discussed, shedding light on their complex behavior.
This book provides a detailed and structured journey into the world of nanomotors, offering insights for various disciplines. Whether you're a professional, student, or hobbyist, "Micromotor" is an indispensable resource that delivers both knowledge and practical understanding of cuttingedge advancements in nanotechnology.
