The theoretical study of chemistry is known as pure chemistry. Pure chemistry is defined as the pursuit of knowledge and comprehension of a chemistry concept or process through research. Pure chemistry is based on a desire to know why something occurs and to look into its reason.
Purpose of Pure Chemistry
Pure chemistry has a theoretical focus. Work in pure chemistry can be compared to the theoretical mind of chemistry. The goal is to deepen one’s understanding of a chemical idea or phenomenon to broaden one’s knowledge of the field. These chemists frequently develop theories and research a subject they wish to understand more about.
Pure chemistry is significant since it can improve quality of life and enable people to make more educated purchasing decisions. A thorough understanding of chemistry can eventually result in improvements and fresh approaches to issues relating to energy, the environment, cooking, nutrition, healthcare, technology, and the production of consumer goods. For instance, a thorough understanding of the chemical processes that occur within the body and in medicine may eventually result in improvements in the treatment of illness and disease that may have a negative influence on people’s lives.
Pure Chemistry vs. Applied Chemistry
One of the two research subfields in contemporary chemistry is pure chemistry, and the other is applied chemistry. These two types of research complement one another and can sometimes be completed in two steps. While applied chemistry entails using what has been learned to serve a specific purpose or application, pure chemistry involves studying a chemistry concept or process to learn and comprehend it. The theoretical side of chemistry is represented by pure chemistry, and the practical side by applied chemistry. Therefore, applied chemistry can be thought of as the second phase and pure chemistry as the first. Because pure chemistry influences practical chemistry and vice versa, the two are related.
Applying taught concepts to a practical objective or current problem in the actual world is the goal of applied chemistry. To address issues in the real world, an applied chemist applies the knowledge gained from pure chemistry. Many ideas came from pure chemists who were interested in things and which, when used by applied chemists, led to ground-breaking discoveries to benefit people and the environment. For instance, applied chemists created many kinds of laundry detergents after learning about surfactants and their properties from pure chemists. Another example is how applied chemists created COVID-19 vaccines to help save lives after pure chemists studied and learned about the COVID-19 virus.