== Overview == In October 2024, researchers at the National University of Singapore (NUS) published a study in *Nature Chemistry* describing a new method for the synthesis of alkenes using common feedstock chemicals, such as carboxylic acids, alcohols, and alkanes. Alkenes are important intermediates in the production of plastics, synthetic rubber, and fine chemicals. Traditional methods for alkene synthesis often require specific starting materials like aldehydes or other alkenes, making the process more complex and limited in scope. This new method integrates photocatalytic radical addition and Norrish Type II reactions, powered by light, to provide a one-pot, efficient strategy for the production of alkenes from a broader range of starting materials. == Methodology == The NUS researchers, led by Associate Professor Wu Jie, used vinyl ketone as an "olefination reagent" in their photochemical process. This method enables the transformation of carboxylic acids, alcohols, and alkanes into valuable alkenes. By fine-tuning the reaction conditions, the team was able to optimize the yield of alkenes while minimizing unwanted side reactions. The process is characterized by its simplicity and versatility, as it allows the use of a wide variety of feedstock chemicals that are abundant and more readily available. The use of light as a catalyst also makes the method more environmentally friendly compared to traditional methods. == Key Findings == The research demonstrated that this method could efficiently produce alkenes from alcohols, carboxylic acids, and alkanes, which were previously difficult to use in alkene synthesis. A key feature of the method is its ability to perform late-stage olefination of multifunctional molecules, which could be beneficial for drug discovery and the synthesis of complex chemical compounds. The team also found that they could control the geometry of the alkenes, an important factor for the synthesis of bioactive molecules. == Impact == This new approach provides an alternative to traditional alkene synthesis methods, which often require multiple steps or specialized reagents. The versatility and simplicity of the method could make it useful in both academic research and industrial applications, particularly in fields such as pharmaceuticals, agrochemicals, and materials science. This method also highlights the potential of photochemistry in simplifying chemical synthesis and may contribute to more sustainable practices in the chemical industry. == References == * "Light broadens the scope of alkene synthesis." *Science Daily*, October 15, 2024. [Link to article](https://www.sciencedaily.com/releases/2024/10/241015141741.htm) * "One-pot photochemical strategy for the synthesis of alkenes and key intermediates." *National University of Singapore*, October 15, 2024. [Link to article](https://www.nus.edu.sg/research/research-features/wu-jie-one-pot-photochemical-strategy-for-the-synthesis-of-alkenes-and-key-intermediates#:~:text=Led%20by%20Associate%20Professor%20Wu,carboxylic%20acids%2C%20alcohols%20and%20alkanes.) * Wu, J., Zhao, Y., Ma, J., et al. "A new method for alkene synthesis using light-powered photocatalytic reactions." *Nature Chemistry*, 2024.