In the M.S. program in Chemical Engineering, students will work side-by-side with world-renowned experts to conduct original research to address global challenges using chemical engineering principles. Our program equips students with a diverse skill set essential for the next generation of chemical engineering leaders in academia and industry. Our students are involved in a wide range of innovative research areas, including, advanced polymeric materials, bioanalytical devices, biomedical science and engineering, systems biology, synthetic biology, and biomanufacturing.
There are abundant opportunities for collaboration with various departments across the University, including departments in the Colleges of Engineering, Natural Sciences, Veterinary Medicine and Biomedical Sciences, and beyond.
The Plan B degree is completed with a scholarly paper and satisfactory performance on a final comprehensive examination approved by the student’s graduate committee.
Students interested in graduate work should refer to the Graduate and Professional Bulletin.
Learning Objectives
Upon successful completion of this program, students will be able to:
- Demonstrate technical mastery of the core chemical engineering disciplines of thermodynamics, transport phenomena, and chemical reaction engineering.
- Conduct research in chemical engineering and related fields by applying chemical engineering principles to develop solutions to complex engineering problems.
- Maintain high standards of scholarly excellence and responsible research conduct.
- Competently and professionally communicate their research in both written and oral forms.
- Effectively contribute to a broader research endeavor by directly collaborating with other scientists and engineers or by conducting and communicating their work in such a way that their individual contributions are readily assimilated with the work of other researchers in their field and related fields.
Effective Fall 2025
| Code | Title | Credits |
|---|---|---|
| Core Courses: | ||
| CBE 693 | Research Conduct and Practices | 1 |
| Select one option from the following: | 7-12 | |
Option (1): chemical engineering principles and mathematical modeling (12 credits) | ||
| Chemical Engineering Thermodynamics | ||
| Advanced Reactor Design | ||
| Transport Phenomena Fundamentals | ||
| Mathematical Modeling for Chemical Engineers | ||
Option (2): chemical and biological engineering principles (7 credits) 1 | ||
| Chem & Biological Engineering Fundamentals | ||
| Fundamentals of Biochemical Engineering | ||
| Advanced Statistics and Data Science 1 | 0-3 | |
| Quantitative Systems and Synthetic Biology | ||
| Biological Physics | ||
| Biomedical Signal Processing | ||
| Bioengineering | ||
| Quantitative Systems Physiology | ||
| Theory of Population and Evolutionary Ecology | ||
| Computational Approaches in Molecular Ecology | ||
| Embedded Systems and Machine Learning | ||
| Big Data | ||
| Artificial Intelligence | ||
| Machine Learning | ||
| Statistical Machine Learning | ||
| Genomics Data Analysis in Python | ||
| RNA-Sequencing Data Analysis | ||
| Applied Engineering Data Analytics | ||
| R Programming for Research | ||
| Mass Spectrometry Omics-Methods and Analysis | ||
| Microbial Metagenomics/Genomics Data Analysis | ||
| Functional Genomics | ||
| Current Methods in Microbial Genomics | ||
| Design and Data Analysis for Researchers I | ||
| Design and Data Analysis for Researchers II | ||
| Introduction to Probability Theory | ||
| Data Analysis and Regression | ||
| Biostatistical Methods for Quantitative Data | ||
| Statistics for Environmental Monitoring | ||
| Applied Multivariate Analysis | ||
| Engineering Data Design and Visualization | ||
| Biomolecular Engineering Electives 1 | 0-6 | |
| Bioseparation Processes | ||
| Bioremediation | ||
| Advanced Biological Wastewater Processing | ||
| Engineering of Protein Expression Systems | ||
| Biomolecular Engineering/Synthetic Biology | ||
| Biomolecular Engineering Laboratory 1 | 0-1 | |
| Biochemical Engineering Laboratory | ||
| Electives 2 | 11-19 | |
5XX - 7XX courses with the course following prefixes: CBE, BIOM, MSE, CIVE, ECE, MECH, SYSE, ENGR, AB, AHS, ANEQ, BC, BMS, BTEC, BZ, CM, CHEM, CS, DSCI, ECOL, ESS, ERHS, FSHN, FTEC, GEOL, GES, GRAD, HORT, LIFE, MATH, MIP, NB, PH, SOCR, STAR, STAA, STAT | ||
| Independent Study for use towards the scholarly paper requirement 3 | 0-3 | |
| Independent Study | ||
| Program Total Credits | 32 | |
A minimum of 32 credits are required to complete this program.
- 1
Students who choose option (2) in the core courses must take 3 credits in Advanced Statistics and Data Science, 6 credits in Biomolecular Engineering Electives, and 1 credit in Biomolecular Engineering Laboratory
- 2
For students who choose option (1) in the core courses, take a minimum of 16 credits of electives, including any additional courses in the categories listed above.
For students who choose option (2) in the core courses, take a minimum of 11 credits of electives, including any additional courses in the categories listed above
- 3
The M.S. degree, Plan B, is completed with a scholarly paper. The M.S. degree with a scholarly paper requires 32 graduate course credit hours. A maximum of 3 credits of independent study (CBE 695) for use towards the scholarly paper requirement may be counted toward the 32-credit degree requirements.
Department Seminar Attendance
Master of Science Students are also required to attend the department seminars whenever they are held as a condition of making satisfactory progress towards their degree, except when regular coursework conflicts with the time.
Examinations and Scholarly Paper Requirement
An acceptable scholarly paper must be submitted to and approved by the student’s graduate committee. Satisfactory performance on a final comprehensive examination administered by the student’s graduate committee is required. The final comprehensive examination includes an oral presentation of the scholarly paper that is open to the public.
For more information, please visit Requirements for All Graduate Degrees in the Graduate and Professional Bulletin.
Summary of Procedures for the Master's and Doctoral Degrees
NOTE: Each semester the Graduate School publishes a schedule of deadlines. Deadlines are available on the Graduate School website. Students should consult this schedule whenever they approach important steps in their careers.
Forms are available online.
| Step | Due Date |
|---|---|
| 1. Application for admission (online) | Six months before first registration |
| 2. Diagnostic examination when required | Before first registration |
| 3. Appointment of advisor | Before first registration |
| 4. Selection of graduate committee | Before the time of fourth regular semester registration |
| 5. Filing of program of study (GS Form 6) | Before the time of fourth regular semester registration |
| 6. Preliminary examination (Ph.D. and PD) | Two terms prior to final examination |
| 7. Report of preliminary examination (GS Form 16) - (Ph.D. and PD) | Within two working days after results are known |
| 8. Changes in committee (GS Form 9A) | When change is made |
| 9. Application for Graduation (GS Form 25) | Refer to published deadlines from the Graduate School Website |
| 9a. Reapplication for Graduation (online) | Failure to graduate requires Reapplication for Graduation (online) for the next time term for which you are applying |
| 10. Submit thesis or dissertation to committee | At least two weeks prior to the examination or at the discretion of the graduate committee |
| 11. Final examination | Refer to published deadlines from the Graduate School Website |
| 12. Report of final examination (GS Form 24) | Within two working days after results are known; refer to published deadlines from the Graduate School website |
| 13. Submit a signed Thesis/Dissertation Submission Form (GS Form 30) to the Graduate School and Submit the Survey of Earned Doctorates (Ph.D. only) prior to submitting the electronic thesis/dissertation | Refer to published deadlines from the Graduate School website. |
| 14. Submit the thesis/dissertation electronically | Refer to published deadlines from the Graduate School website |
| 15. Graduation | Ceremony information is available from the Graduate School website |