A program that prepares individuals to apply mathematical and scientific principles to the design, development and operational evaluation of systems at the interface of chemical engineering and biology, with an emphasis at the molecular level, such as biopharmaceutical processes, protein engineering, metabolic engineering, gene therapy, biomaterials, cell and tissue engineering, and drug delivery. Includes instruction in chemical engineering, thermodynamics, organic chemistry, biochemistry, momentum and heat transfer, cellular and molecular biotechnology, process design, and chemical reactor design.
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| Rank | School Name | Students | % of Total | Total On-Campus Cost |
|---|---|---|---|---|
| 1 | University of Pennsylvania | 71 | 1% | $74,408 |
| 2 | Stony Brook University | 42 | 1% | $26,091 |
| 3 | Milwaukee School of Engineering | 36 | 5% | $53,684 |
| 4 | University of California-Davis | 12 | 0% | $35,177 |
| 5 | University of Chicago | 12 | 0% | $78,555 |
| 6 | University of Washington-Seattle Campus | 11 | 0% | $27,638 |
| 7 | Massachusetts Institute of Technology | 11 | 0% | $70,240 |
| 8 | Lehigh University | 6 | 0% | $68,595 |
| 9 | Holmes Community College | 1 | 0% | $11,260 |
This list indicates the number of students that completed the Chemical and Biomolecular Engineering program at the schools above.
It is not necessarily an indicator of academic rigor or quality of education.
Note that some schools do not have enough data to be ranked, and these schools will not appear in our lists.