Organic Photochemistry by Coxon and Halton: A Free PDF Download
If you are looking for a comprehensive and accessible introduction to organic photochemistry, you may want to check out Organic Photochemistry by James Morriss Coxon and Brian Halton. This book, first published in 1974 and revised in 1986, covers the main classes of reactions that illustrate the photochemical behavior of simple organic molecules. It also explains the mechanisms and energy level diagrams of these reactions with clear diagrams and examples.
Organic photochemistry is the study of the chemical transformations that occur when organic compounds absorb light. It is an important field of research that has applications in synthesis, photovoltaics, photomedicine, photochromism, and more. Organic photochemistry can also help us understand some natural phenomena, such as photosynthesis, vision, and bioluminescence.
Organic Photochemistry by Coxon and Halton is a classic text that has been widely used by students and researchers in organic chemistry. It is written in a concise and lucid style that makes it easy to follow and learn. It also provides references to the original literature for further reading.
The best part is that you can download this book for free from the Internet Archive. The Internet Archive is a non-profit organization that preserves and provides access to millions of books, movies, music, websites, and more. You can find Organic Photochemistry by Coxon and Halton here: https://archive.org/details/organicphotochem0000coxo. You can either read it online or download it as a PDF file.
So, if you are interested in learning more about organic photochemistry, don't miss this opportunity to get a free copy of this excellent book. You will surely find it useful and informative.
Organic photochemistry has many applications in various fields of science and technology. Some of the most prominent examples are:
Photoredox catalysis: This is the use of photochemical reactions to catalyze redox reactions, such as oxidation, reduction, substitution, and elimination. Photoredox catalysis can enable novel transformations that are difficult or impossible to achieve by conventional methods. For instance, photoredox catalysis can be used to activate CâH bonds, functionalize heterocycles, construct carbonâcarbon bonds, and perform asymmetric synthesis.[^1^]
Photovoltaics: This is the conversion of light into electricity using semiconducting materials. Photovoltaics can harness solar energy as a renewable and clean source of power. Organic photochemistry plays a key role in the design and optimization of organic solar cells, which are flexible, lightweight, and low-cost alternatives to conventional silicon-based solar cells.[^2^]
Photomedicine: This is the use of light to diagnose or treat diseases. Photomedicine can exploit the interactions of light with biological molecules and tissues for various purposes. For example, photomedicine can be used to detect DNA damage, monitor blood oxygen levels, kill cancer cells, deliver drugs, and modulate gene expression.[^3^]
Photochromism: This is the reversible change of color of a material upon exposure to light. Photochromism can be used to create smart materials that respond to environmental stimuli. For example, photochromic materials can be used to make sunglasses that darken when exposed to sunlight, or optical switches that change their conductivity when illuminated.[^4^]
These are just some of the many applications of organic photochemistry that demonstrate its importance and potential in modern science and technology. Organic photochemistry is a fascinating and dynamic field that offers endless possibilities for discovery and innovation. 248dff8e21