Photoswitch

“Photoswitch,” a vital addition to the “Molecular Machine” series by Fouad Sabry, explores the intricate world of photoresponsive systems that have become central to advancements in molecular machinery. This book delves deep into the fascinating concept of molecular machines, particularly focusing on the ability to manipulate molecular structures using light. The knowledge offered within is essential for professionals, undergraduate and graduate students, as well as enthusiasts and hobbyists eager to understand cuttingedge developments in molecular technology

Chapters Brief Overview:

Photoswitch: This chapter introduces the concept of photoswitches, which are central to controlling molecular systems using light

Photochromism: Explore the reversible transformation of molecules under light exposure, enabling the creation of adaptable systems

Molecular machine: Learn how molecular machines operate at the atomic level, powered by various stimuli, including light

Retinylidene protein: Delve into the role of retinylidene proteins in biological photoresponsive systems and their significance in molecular engineering

Ben Feringa: Discover the groundbreaking work of Ben Feringa, whose contributions have revolutionized molecular motor technology

Stefan Hecht: Learn about Stefan Hecht’s work in the realm of molecular switches and his influence on the field of molecular engineering

Solar chemical: This chapter explores solar energy as a driving force for chemical reactions, offering insights into sustainable molecular machines

Photoactivated peptide: Understand how photoactivated peptides are engineered for dynamic biological applications and molecular recognition

Synthetic molecular motor: Investigate the development of synthetic molecular motors, which mimic biological processes at the molecular scale

Molecular switch: Examine various types of molecular switches and their practical applications in controlling systems at the nanoscale

Lu Shin Wong: Learn about Lu Shin Wong's contributions to the field of photoresponsive molecules and their application in molecular machines

Natalia Shustova: This chapter focuses on the role of Natalia Shustova’s research in advancing photoresponsive molecules for molecular machines

Photoisomerization: Delve into the phenomenon of photoisomerization, a critical process in molecular machines driven by light

Spiropyran: Explore spiropyrans and their photoisomerization properties that make them ideal for use in photoswitchable systems

Fluorescent tag: This chapter highlights the importance of fluorescent tags in molecular biology and their role in monitoring molecular machines

Photoelectrochemical process: Examine the integration of light and electrochemistry in the development of efficient molecular systems

Fulgide: Learn about fulgides, a class of photoresponsive compounds used in molecular machines for precise control

Photopharmacology: Discover how light can be used to activate drugs within the body, opening new possibilities for therapeutic applications

Diarylethene: Explore diarylethenes and their unique photochromic properties that make them powerful tools in molecular engineering

Azobenzene: Understand the role of azobenzene in molecular switches, offering critical insights into their application in nanotechnology

Phototrexate: Investigate how phototrexate, a lightsensitive drug, can be used to target specific cells with unprecedented precision

This book not only equips you with essential knowledge of photoresponsive systems but also shows their immense potential in revolutionizing various fields, from nanotechnology to medical applications. With thorough coverage of key research and breakthroughs, “Photoswitch” is indispensable for anyone interested in the future of molecular machines.