As the world transitions to a more sustainable and circular economy, waste and pollution are designed-out from the beginning, and the need for advanced new material science is increasingly important. Computational chemistry is proving to be a powerful tool in this endeavor, offering benefits that can help create a more sustainable future.
In this blog post, we’ll explore the potential benefits of computational chemistry for the circular economy, discuss how it can help reduce waste, and describe the potential for new innovative materials. By harnessing the power of computational chemistry, we can make great strides towards a greener future.
What is Computational Chemistry?
Computational chemistry is the application of computer simulations to investigate the behavior and properties of molecules and atoms. It’s a field of science that has two distinct aspects. The first is the use of theoretical methods to understand, explain, and predict the properties of molecules and atoms. The second is the development and use of high-performance computing resources to simulate chemical processes to help design experiments and interpret their results.
