Artificial enzyme-This chapter introduces the concept of artificial enzymes, their design, and their significance in the realm of nanomotors, laying the foundation for the entire book
Selenogallate-The exploration of selenogallate as a novel material, discussing its synthesis and its application in enhancing catalytic processes for energy generation
Electrocatalyst-This chapter examines the role of electrocatalysts in nanomotors, focusing on their ability to promote efficient energy conversion and their applications in fuel cells
Selenidostannate-A deep dive into selenidostannate compounds, this chapter highlights their importance in enhancing the performance of nanomotorbased systems for sustainable energy solutions
Energy applications of nanotechnology-This chapter explores the potential of nanotechnology in revolutionizing energy production, emphasizing the role of nanomotors in improving energy efficiency and sustainability
Thiogermanate-Thiogermanate compounds are discussed in this chapter, with a focus on their electronic and catalytic properties that aid in the development of highperformance nanomotors
Carbon quantum dot-Here, the role of carbon quantum dots in nanomotor applications is examined, shedding light on their unique properties and potential for energy harvesting and storage
Yan Xiyun-The work of Yan Xiyun in the field of nanotechnology is explored in this chapter, focusing on his contributions to the development of advanced nanomotor systems
Micromotor-This chapter delves into the design and applications of micromotors, exploring their integration into various technologies and their impact on scientific advancements
Nanomotor-A thorough overview of nanomotors, this chapter covers their design, working principles, and how they serve as a cornerstone for many technological breakthroughs
Singleentity electrochemistry-The importance of singleentity electrochemistry in the study of nanomotors is explored here, emphasizing its role in advancing precision and efficiency in nanoscale devices
Photothermal therapy-The chapter introduces the concept of photothermal therapy, a promising application of nanomotors in medicine, particularly for targeted treatment and disease management
Highentropyalloy nanoparticles-This chapter investigates highentropyalloy nanoparticles, showcasing their unique properties and how they contribute to enhanced performance in nanomotor systems
Borophosphate-Borophosphate compounds are explored in this chapter, highlighting their role in improving the efficiency and sustainability of nanomotordriven systems
Reductionsensitive nanoparticles-The chapter focuses on reductionsensitive nanoparticles, discussing their potential applications in nanomotor systems, particularly in drug delivery and energy storage
Graphene quantum dot-Graphene quantum dots are examined in this chapter for their exceptional electrical and optical properties, which make them ideal for integration into advanced nanomotor technologies
Tribotronics-Tribotronics is explored as a key technology for enhancing the performance of nanomotors, focusing on its applications in sensors and energy harvesting
Nanomaterialbased catalyst-This chapter highlights the role of nanomaterialbased catalysts in driving chemical reactions within nanomotor systems, focusing on their impact on energy efficiency and sustainability
Iodate fluoride-Iodate fluoride compounds are discussed in this chapter, exploring their unique properties and their potential applications in the development of advanced nanomotors
Polymerprotein hybrid-The chapter investigates polymerprotein hybrids, emphasizing their role in the development of biocompatible and efficient nanomotor systems for medical applications
