Chemical engineers are the brains behind many of today’s essential products and materials. They turn crude oil, biological materials, metals and waste materials into usable products like gasoline, ...

Are you someone who wants to apply scientific principles — along with a healthy dose of creativity — to the creation of new chemicals and chemical processes that can improve our quality of life?

Chemical engineers tackle problems ranging from the molecular level to the planetary scale (and beyond). The skillset you'll build as a chemical engineer will position you to be able to solve a wide ...

Chemical engineers develop problem-solving skills, with a strong foundation in science, engineering, and mathematics that touch every aspect of our lives–from smaller, faster computer chips to ...

Undergraduate Option tracks: Below is a list of a few that are popular with our undergraduate students: Advanced Materials Option Bioengineering Option Nuclear Engineering Option Combined Bachelor of ...

The University of Dayton's chemical engineering program is one of only a handful in the nation involved in the modeling, control and automation of composite processing. You'll develop scholarship, ...

Chemical engineers combine engineering skills with physical sciences to develop new products and processes, as well as design, build and supervise facilities that convert raw materials into products ...

Chemical and biological engineers use concepts from the biological sciences to inspire and guide the development and production of chemicals, pharmaceuticals and advanced biomaterials. Without the ...

Throughout your four years in the program, you’ll conduct research alongside award-winning faculty. You can focus on research areas such as radiochemical separations, biosensors, or electrochemistry, ...

Chemical engineers use chemical processes to find innovative ways of producing goods that improve and protect human health, the environment and the economy. The work of a chemical engineer can range ...