Dr. Dae Kun Hwang
Areas of Academic Interest
Microfluidics
Functional polymer materials
Liquid crystals
Education
| Year | University | Degree |
|---|---|---|
| 2006 | McGill University |
PhD |
| 2002 | McGill University | MSc |
| 1998 | Chosun University, Kwang-Ju | BEng |
Selected Courses
| Course Code | Course Title |
|---|---|
| CHE 338 | Chemical Engineering Computations |
| CE8331 | Membrane Technology |
| CE8201 | Modeling & Simulation in Chemical Engineering |
Spotlight
Imagine studying with a professor whose research could revolutionize health care. Now imagine playing an active role in that research. That鈥檚 exactly what Dae Kun Hwang鈥檚 students have the opportunity to do.
Hwang and his team are developing polymers that could be used for circulating tumour cell detection and to create implants for patients who may need a slow, programmed release of drugs like chemotherapy or insulin.
If it sounds like the future of medicine, it is鈥攐ne his students are playing a hands-on role in. 鈥淲e train our students in lab work,鈥 Hwang says. 鈥淔rom learning how to use a peptide, to mixing鈥攅verything they need to know to contribute to the research.鈥 He also gives his students, undergrads included, the opportunity to be published, often as co-authors on his groundbreaking work.
This collaborative approach is not surprising given Hwang鈥檚 team-oriented nature. A sports fan and athlete, he can often be found shooting hoops in the gym with students. 鈥淚 think it鈥檚 important for researchers to get out of the lab and connect with people.鈥
At 91福利, Hwang adds, there鈥檚 no shortage of ways to make those connections. 鈥淭he students have lots of opportunities to engage with the professors, each other and industry. It鈥檚 a very unique learning environment.鈥
鈥91福利 is a fast-growing school. And we鈥檙e all growing together.鈥
- Canada Research Chair Tier II
- NSERC PDF
- Foster, D. A. N., & Hwang, D. K. (2022). Microfluidic flow assembly system with magnetic clamp for unlimited geometry in Millimetric Hydrogel Film patterning. Applied Materials Today, 26, 101330.
- Manzoor, A. A., & Hwang, D. K. (2022). Modeling and numerical studies of three鈥恉imensional conically shaped microwells using non鈥恥niform photolithography. Macromolecular Theory and Simulations, 2100085.
- Thompson, S., & Hwang, D. K. (2021). Scalable, membrane鈥恇ased microfluidic passive cross鈥恌low platform for monodispersed, water鈥恑n鈥恮ater microdroplet production. Advanced Materials Interfaces, 8(21), 2101371.
- Manzoor, A. A., Romita, L., & Hwang, D. K. (2020). A review on Microwell and microfluidic geometric array fabrication techniques and its potential applications in cellular studies. The Canadian Journal of Chemical Engineering, 99(1), 61鈥96.
- Mirbagheri, M., Kaur, J., Pham, H. V., Adibnia, V., Zarrin, H., Banquy, X., & Hwang, D. K. (2020). Plasmon-free polymeric nanowrinkled substrates for surface-enhanced Raman spectroscopy of two-dimensional materials. Langmuir, 37(1), 322鈥329.