Molecular Machine

In the cuttingedge field of molecular machines, groundbreaking innovations are transforming science and technology. Fouad Sabry’s book, Molecular Machine, provides an indepth exploration of this fascinating domain, making it essential reading for professionals, students, and enthusiasts alike. Whether you are an undergraduate or graduate student, or simply a hobbyist eager to understand how molecular machines will shape our future, this book offers unparalleled insights. With clarity and precision, it covers critical developments in molecular motors, switches, and sensors, demonstrating the vast potential of molecular engineering in various applications. The knowledge shared here goes beyond the theoretical to include realworld breakthroughs, making the book a valuable investment for anyone interested in the future of science and technology

Molecular machine-Introduces the concept of molecular machines, highlighting their role in nanotechnology

Nanomotor-Explores the principles behind nanomotors, key components in powering molecular machines

Aptamer-Examines aptamers, their function as molecular recognition tools, and their integration into molecular machines

Harry Anderson (chemist)-Focuses on Harry Anderson’s contributions to the development of molecular machines, shedding light on his work and influence

Host–guest chemistry-Delves into hostguest chemistry, showing how it enables molecular machines to interact with and manipulate molecules

Catenane-Discusses catenanes, ringshaped molecules linked together, and their application in creating mechanical systems at the molecular level

Photoswitch-Investigates photoswitches, which enable the control of molecular systems using light, a pivotal tool in molecular machines

Polycatenane-Provides insights into polycatenanes, expanding on their function in enhancing the performance of molecular machines

Molecular knot-Looks at molecular knots, their significance in molecular engineering, and their role in constructing molecular machines

Rotaxane-Explains rotaxanes, threaded molecules that serve as key components in mechanical motion at the molecular scale

Mechanically interlocked molecular architectures-Covers the creation of complex molecular structures that interact mechanically to perform various functions

Ben Feringa-Highlights the work of Ben Feringa, particularly his Nobelwinning research in molecular motors, and their practical applications

Molecular recognition-Focuses on the mechanisms of molecular recognition, crucial for developing efficient molecular machines

Molecular motor-Examines the design, function, and application of molecular motors, which drive the movement in molecular machines

Nathalie Katsonis-Discusses Nathalie Katsonis’ groundbreaking work in the area of molecular motors and their use in synthetic systems

Molecular switch-Investigates molecular switches, which allow for the control of molecular machines and their applications

Synthetic molecular motor-Explores the design and implementation of synthetic molecular motors and their impact on the field

Molecular sensor-Describes the role of molecular sensors in detecting changes at the molecular level, essential for the functionality of molecular machines

JeanPierre Sauvage-Focuses on the achievements of JeanPierre Sauvage, a pioneer in the field of molecular machines, and his contributions to molecular engineering

DNA nanotechnology-Investigates the application of DNA nanotechnology in creating highly complex and efficient molecular machines

Supramolecular chemistry-Explores supramolecular chemistry and its importance in designing and controlling molecular machines