Chemical Engineering (MS)
Graduate School
Graduate Field
Program Description
Degree candidates are expected to pursue study and research that will give them a deeper comprehension of the basic and applied sciences and will develop initiative, originality, and creative ability. The thesis or dissertation may involve either research or special projects in such subjects as design, economics, or mathematical analysis. There is no language requirement for students majoring in chemical engineering.
Concentrations
- Biomolecular engineering and biotechnology
- Soft matter and complex fluids
- Molecular simulation and complex systems modeling
- Engineering education
- Engineered nanomaterials and interfaces
- Energy and sustainability
Program Information
- Program Mode of Delivery: In Person
- Program Location: Ithaca, NY
Program Requirements
- 48 credits in Masters Thesis Research
- Minimum Semesters for Degree: 4
Graduate School Milestones
- Responsible Conduct of Research Training: Required
- Open Researcher and Contributor ID (ORCID): Required
- Student Progress Reviews (SPR) begin: First Year
- Masters Exam (M Exam): Spring of fourth year
- Thesis: Spring of fourth year
Field Specific Milestones
- Required Trainings before end of 1st Semester
- EHS 2555 – Laboratory Safety
- EHS 2716 – Chemical Waste Disposal
- EHS 5350 – CPR
- EHS 5360 – First Aid
Course Requirements
Course requirements are determined by the student’s Special Committee.
Enrollment in a GRAD research course or the equivalent field specific research course is expected of all students.
Graduate School Enrollment Requirements
Course Requirements
- Course requirements are determined by the student’s Special Committee.
- Enrollment in a GRAD research course or the equivalent field specific research course is expected of all students each semester through graduation. These courses include:
University Graduation Requirements
Requirements for All Students
In order to receive a Cornell degree, a student must satisfy academic and non-academic requirements.
Academic Requirements
A student’s college determines degree requirements such as residency, number of credits, distribution of credits, and grade averages. It is the student’s responsibility to be aware of the specific major, degree, distribution, college, and graduation requirements for completing their chosen program of study. See the individual requirements listed by each college or school or contact the college registrar’s office for more information.
Non-academic Requirements
Conduct Matters. Students must satisfy any outstanding sanctions, penalties or remedies imposed or agreed to under the Student Code of Conduct (Code) or Policy 6.4. Where a formal complaint under the Code or Policy 6.4 is pending, the University will withhold awarding a degree otherwise earned until the adjudication process set forth in those procedures is complete, including the satisfaction of any sanctions, penalties or remedies imposed.
Financial Obligations. Outstanding financial obligations will not impact the awarding of a degree otherwise earned or a student’s ability to access their official transcript. However, the University may withhold issuing a diploma until any outstanding financial obligations owing to the University are satisfied.
Learning Outcomes
- Mastery and application of chemical engineering knowledge
-Students will demonstrate an understanding of the core subjects in chemical engineering and the ability to apply core subjects to technological applications. - Problem formulation, analysis, solution, and presentation of results
-Students will demonstrate the ability to use appropriate chemical engineering techniques, tools, and methods to solve engineering problems in the context of courses and independent projects. They will be able to apply those tools to the formulation, analysis, and solution of broadly defined problems. They will demonstrate the ability to critically evaluate results. - Communication of knowledge
-Students will demonstrate the ability to describe effectively the formulation, analysis, and solution of specific problems in chemical engineering. They will be able to explain the technological importance of the problems and the results they obtained. - Self-directed learning and professional development
-Students will demonstrate the ability to assimilate information from multiple sources to solve original engineering problems of technological importance. They will demonstrate the ability to work with fellow students in individual and team environments. They will acquire an awareness of professional roles in chemical engineering practice. They will recognize that involvement in the chemical engineering profession involves a commitment to lifelong learning and continuing development of skills and abilities.
Admissions
Application Requirements and Deadlines
Application Deadlines
Fall, February 1; no spring admission
Requirements Summary
Most applicants have satisfactorily completed the equivalent of the fundamental work required by an accredited curriculum in chemical engineering. Outstanding students with undergraduate majors in chemistry, materials science, microbiology, or physics are also encouraged to apply.
- all Graduate School requirements, including the English language proficiency requirement for all applicants
- three recommendations required
- GRE scores are not required.
- resume or CV
Admissions Contact Information
Email: cbe-gfa@cornell.edu
Phone: 607-255-4550
Campus Address:152 Olin Hall
Website: https://www.engineering.cornell.edu/cbe/ms-program/