Graduate Studies - Prospective Students
Bioengineering Courses at Illinois
Bioengineering Core Courses
BIOE 504 |
Fall Semester Analytical Methods in Bioengineering - 4 credit hours Total 12 credit hours. |
BIOE 506 |
Spring Semester Molecular and Cellular Engineering - 4 credit hours Total 12 credit hours |
Bioengineering Electives
The following are classes that are likely eligible as Bioengineering electives for graduate students. Current students should consult with their advisor on the appropriateness of a particular classes.- Life Sciences
- Bioimaging (Background)
- Bioimaging (Modality Specific)
- Bioinformatics (Computational Biology)
- Cell and Tissue Engineering
- Micro and Molecular Technologies
- MEMs and Fabrication
- Instrumentation
- Electronics and Materials Background
Life Science Courses
ANSC 446 ANSC 447 BIOCH 452 BIOP 401 BIOP 420 BIOP 541 BIOP 550 BIOE 431 CHEM 574 CPSC 563 CPSC 564 CPSC 566 CPSC 568 CPSC 598 SS MCB 401/403 MCB 402/404 MCB 418 MCB 421 MCB 450 MCB 502 MCB 514 MCB 516
MCB 518
MCB 519
MCB 522
MCB 523
MCB 524
MCB 525
MCB 527
MCB 528
MCB 529
MCB 530
MCB 531
MCB 533
MCB 546
|
Cellular and Systematic Reactions to Injury Genomics, Proteomics, Bioinformatics Molecular Marker Data Analysis Recombinant DNA Technology Laboratory Probabilistic Methods for Biological Sequence Analysis Cell & Membrane Physiology/Lab Systems & Integrative Physiology/Lab |
Bioimaging
BIOE 414/415 CS 450 ECE 410 ECE 413 ECE 450 ECE 459 ECE 534 ECE 547 ECE 551 ECE 558 ECE 561 |
Biomedical Instrumentation/Lab Introduction to Numerical Analysis |
Bioimaging (Modality Specific)
CHEM 573 ECE 460 ECE 473 ECE 474 ECE 480 ECE 513 ECE 545 ECE 561 ECE 569 ECE 570 PHYS 550 PHYS 598OS |
Isotopically Labeled Compounds Fundamentals of Engineering Acoustics |
Bioinformatics
ChBE 571/ ChBE 580 CHEM 574 CS 411 CS 473 CS 498 CXZ ANSC 448 BIOE 417 BIOE 475 BIOE598SZ CS 400 CS 420 CS 427/428 CS 446 CS 450 CS 476 CS 498-Han CS 511 CS 512 CS 519 CS 554 MCB 458 |
Genomics, Proteomics, and Bioinformation Math Modeling in Life Sciences Adv Topics - Applied Bioinformatics Computational Neurobiological Methods Models and Computations in Functional Genomics Genomics, Proteomics, Bioinformatics Computational Chemical Biology Bioinformatics and Genome Biology PERL & UNIX for Bioinformatics Transcriptomics, Proteomics, and Metabolomics Introduction to Parallel Programming Pattern Recognition and Machine Learning Introduction to Text Information Systems An Introduction to Data Warehousing and Data Mining Advanced Database Management. Systems Advanced Seminar on Data Mining in Bioinformatics Molecular Genetics: Gene Action Computing in Molecular Biology |
Cell and Tissue Engineering
BIOE 406 BIOE 498 CHBE 472 CHBE 473 CHBE 553 CHBE 572 MCB 401 MCB 480 MCB 502 MCB 552 MSE 420 MSE 450 MSE 457 MSE 458 MSE 470 MSE 473 TAM 461 TAM 524 |
Principles of Tissue Engineering Techniques in Biomolecular Eng Lab Techniques in Biochemistry Ceramic Materials & Processing Introduction to Polymer Science & Engr. Design and Application of Biomaterials |
Micro and Molecular Technologies in Bioengineering
MEMS and Fabrication Oriented Coursework
ECE 485 ECE 444 ECE 484 CHBE 457 CHBE 598 ME 498 |
Intro to MEMs Devices and Systems IC Device Theory and Fabrication Principles Advanced Microelectronic Processing |
Instrumentation
BIOE 414/415 ECE 460 ECE 473 ECE 498SB CHBE 472 |
Electronics and Materials Background
ECE 440 ECE 442/3 ECE 482 ECE 483 MSE 450 |
Solid State Electronic Devices Intro to Polymer Science and Engineering
|
