Chemical Engineering
The Chemical Engineering Master of Science program at Cornell University offers a rigorous scientific and engineering focused learning environment for students who want to explore chemical processes, molecular transformations, and the technologies that support modern industrial innovation. The curriculum integrates advanced chemical engineering theory with applied research, allowing learners to study thermodynamics, reaction engineering, transport phenomena, and materials processing within a structured academic framework. With an emphasis on process engineering, the program supports students in understanding how chemical systems behave under different operating conditions, enabling them to evaluate and design processes that support efficiency, safety, and sustainability across chemical and manufacturing industries.
Across the two year curriculum, students engage with faculty renowned for their contributions to chemical engineering research, gaining exposure to laboratory experimentation, computational modeling, and analytical methods that support scientific advancement. The program strengthens students’ capabilities in chemical systems, data driven evaluation, and experimental design, helping them develop a deep understanding of how chemical engineering principles can be applied to energy, biotechnology, environmental systems, and advanced materials. Through hands on research experiences and interdisciplinary coursework, learners develop both technical depth and innovative thinking that prepare them for impactful scientific and engineering careers.
Key information
Key Facts
- Program Title: Chemical Engineering
- Degree Type: Master of Science
- Duration: 2 years
- Mode of Study: Full-time, On Campus
- Application Deadline: 15 January 2026
- Location: Cornell University, United States
- Field of Study: Chemical Engineering
- Language of Instruction: English
Program Structure
Semester 1
• Advanced Chemical Engineering Principles
• Thermodynamics and Molecular Behavior
• Transport Phenomena
• Elective in Energy or Materials
Semester 2
• Chemical Reaction Engineering
• Process Design and Simulation
• Analytical Techniques in Chemical Engineering
• Elective in Environmental or Biochemical Engineering
Semester 3
• Materials and Nanostructure Engineering
• Computational Methods for Chemical Engineers
• Research Seminar and Laboratory Work
• Elective in Applied Chemical Technologies
Semester 4
• Master’s Thesis Research
• Data Analysis for Chemical Processes
• Professional Preparation in Chemical Engineering
• Elective in Advanced Chemical Engineering Topics
Career Opportunities
Graduates of this program pursue diverse roles within engineering, research, and industrial sectors, often joining chemical manufacturing companies, biotechnology firms, energy and materials organizations, and environmental engineering agencies. With solid training in chemical processes, modeling, and experimental methods, they contribute to developing new materials, optimizing chemical production systems, designing safer industrial operations, and supporting research efforts focused on energy efficiency and sustainability. Their technical expertise also enables them to participate in interdisciplinary teams that address global challenges related to resource management, clean technologies, and advanced manufacturing, preparing them for long term success across scientific and engineering fields.
Why Choose This Program
This program is an excellent choice for students who want to build a strong foundation in chemical engineering research and applications, offering opportunities to develop advanced analytical skills and comprehensive engineering insight supported by Cornell’s leading technical resources. Through laboratory research, modeling based coursework, and interdisciplinary study, learners gain the ability to design and evaluate chemical systems with scientific precision. The program’s structure promotes skill development, innovation, and scientific rigor, making it an ideal pathway for individuals seeking to engage in cutting edge engineering research, contribute to sustainable technological development, and pursue long term growth in chemical engineering industries.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 607 255 2000
Email: admissions@cornell.edu
Address: Cornell University, Ithaca, NY 14850, United States
