Concepts For Molecular Machines

Concepts For Molecular Machines

Actions of living beings at any stage of life are of general interest; molecular machines can be a replica of such activities. Stimuli guided movements and shape changes of molecules are one of the rapidly developing areas on which fundamental principles of molecular machine banks. Thus, the understanding of intriguing concepts of molecular machines is essential. Miniaturization, efficiency, stability and robustness in performing activities are some of the important points associated with molecular machines. Using molecular machines for practical purposes will further strengthen fundamentals of science and technology and also guide future market economy. Recent advent of techniques to handle materials at microscopic level has benefited the topic of molecular machines and is ready to be taken to a higher level as compared to other competing topics of science and technology. Molecular machines is a contemporary hot topic with future scope. The Nobel Prize in the year 2016 was shared by three scientists Prof. Ben Feringa, Prof. J Fraser Stoddart and Prof. Jean-Pierre Sauvage for their contribution to the topic. This book on molecular machines is aimed to cater to the need of graduate students and researchers by providing the fundamental aspects on molecular machines.

Concepts for Molecular Machines

Molecular Machine

The "Molecular Machine" is an essential read for professionals, students, enthusiasts, and hobbyists interested in the fascinating world of DNA walkers and molecular machines. It bridges the gap between complex scientific concepts and practical applications, making it a musthave reference for anyone passionate about molecular biophysics, nanotechnology, and synthetic biology. This book unravels the intricate mechanisms behind molecular motors, switches, and the latest advancements in supramolecular chemistry, offering readers profound insights into the future of nanotechnology. Chapters Brief Overview: 1: Molecular machine: Introduction to the concept of molecular machines and their potential in various fields. 2: Rotaxane: Explore the structure and function of rotaxanes, key building blocks in molecular machines. 3: Supramolecular chemistry: Delve into the interactions that govern molecular recognition and assembly. 4: Molecular recognition: Understand the role of molecular recognition in selfassembly and sensing. 5: Polycatenane: A look into polycatenanes and their applications in creating advanced molecular structures. 6: Catenane: Discover the significance of catenanes in mechanical interlocking molecular systems. 7: Nanomotor: Learn about the design and working principles of nanomotors, a critical component of molecular machines. 8: Molecular knot: Examine molecular knots and their implications for synthetic chemistry and nanotechnology. 9: Host–guest chemistry: Uncover the potential of hostguest chemistry in drug delivery and molecular systems. 10: Aptamer: Understand aptamers and their role in molecular recognition and diagnostics. 11: Molecular motor: A deeper dive into molecular motors and their applications in nanotechnology. 12: Force field (chemistry): Study the role of force fields in simulating molecular behavior and interactions. 13: Synthetic molecular motor: Explore the creation and functionality of synthetic molecular motors in realworld applications. 14: JeanPierre Sauvage: Learn about JeanPierre Sauvage’s pioneering work in the field of molecular machines. 15: Photoswitch: Discover photoswitches and their applications in molecular machines and photonic systems. 16: Mechanically interlocked molecular architectures: Investigate the design and properties of mechanically interlocked molecules. 17: David Leigh (scientist): Gain insights into David Leigh’s contributions to molecular machine research. 18: Molecular switch: Study the role of molecular switches in controlling molecular processes. 19: Harry Anderson (chemist): Explore Harry Anderson’s contributions to the field of DNA nanotechnology. 20: Ben Feringa: Understand Ben Feringa’s groundbreaking work in molecular motors and their applications. 21: Nathalie Katsonis: Discover Nathalie Katsonis' contributions to the study of molecular machines and their future potential. With cuttingedge research and contributions from leading scientists, "Molecular Machine" provides an authoritative guide to the rapidly evolving world of nanotechnology. Whether you're a student, researcher, or professional, this book will enhance your understanding of molecular dynamics and their realworld applications.