CBE201 - Material and Energy Balances

University of Tennessee-Knoxville

Steady-state and transient material and energy balances in chemical and biomolecular systems.

CHE210 - Material and Energy Balances

University of Illinois at Chicago

Material and energy balances applied to chemical systems. Introduction to chemical and physical properties. Introduction to the use of computers for chemical process calculations.

CHE312 - Transport Phenomena II

University of Illinois at Chicago

Heat and mass transport phenomena. Heat conduction, convection and radiation. Heat exchanger design. Diffusion. Mass transfer coefficients.

CHE422 - Biochemical Engineering

University of Illinois at Chicago

Enzyme-catalyzed and microbially-mediated processes. Free and immobilized enzymes. Batch and continuous cell cultures. Transport phenomena in microbial systems and fermentation processes. Design of biological reactors.

CHE494 - Special topics: Magnetic resonance for engineers

University of Illinois at Chicago

This course will provide the student with a grounding in the principles of NMR and MRI and their relevance to answering questions regarding structure and dynamics of matter.

Systems Biology Modeling of Multicellular Organisms

Comparative Biomedical Sciences, Plant Biology, and Electrical & Computer Engineering, NC State University

The aim of this course is to provide an introduction to the field of systems biology with a focus on mathematical modeling.

Generative Teaming

UT-ORII, UT-Knoxville, & University of Utah

Course leveraging systems thinking, inclusive communication, and liberating structures to help STEM graduate students propose society-conscious solutions for multi-stakeholder challenges. Development supported by UT-Oak Ridge Innovation Institute.

Computational and Quantitative Biology

In: CBS565 Fundamentals of Biomedical Sciences

Comparative Biomedical Sciences Graduate Program, NC State University

Studying lipid regulation of ion channels using molecular simulation

In: CBS810-C Cell Biology Seminar Series

Comparative Biomedical Sciences Graduate Program, NC State University

Physiologically-based pharmacokinetic modeling: Case studies

In: CBS787 Pharmacokinetics

Comparative Biomedical Sciences Graduate Program, NC State University

Math + Biochemistry + Physiology: An examination of toxicity and lipid-mediated toxicity reversal using integrative physiological models

In: CBS800 CBS Seminar Series

Comparative Biomedical Sciences Graduate Program, NC State University