5:1
faculty-to-graduate student ratio
SMALL, DIVERSE
interdisciplinary program
57%
female students
86%
international students
CLOSE-KNIT
student community
39
affiliated faculty across the University, including Engineering, Chemistry, Medical & Dental Schools
We have been a leader in polymer science and engineering since 1968, and our graduates have gone on to have successful careers at influential companies, national labs, and academic research institutions.
The program’s opportunities for networking, exceptional faculty, and state-of-the-art facilities and instrumentation are unparalleled. Our coursework is rooted in polymer chemistry and physics, but it is flexible based on the student’s individual interests and needs.
A master’s degree in Macromolecular Science and Engineering provides students with advanced study and research training in the growing field of polymer science and engineering.
In addition to laying the foundation for students pursuing doctoral studies, this degree prepares students to work in a variety of industries and academia.
The master’s program in Macromolecular Science & Engineering consists of 30 hours of coursework including 9 hours of core curriculum.
Additionally, each student has the ability to tailor their degree to include courses in other areas of engineering, the natural sciences, and medicine. Students will choose one of the following disciplines and elect 9 credit hours in that subject matter:
Individualized plans of study will be developed by students in consultation with an advisor. Click on the Bulletin for a description of each course.
Macro Graduate Courses
Current University of Michigan engineering students can complete both your bachelor’s and master’s degrees in only five years with SUGS by taking some graduate-level classes during your undergraduate years, so you can save yourself one semester and complete a master’s with only two additional semesters.
Apply the skills you are learning in class to the real world. There is a rich variety of experiential learning opportunities to help you find your niche, connect with people who share your passion, and gain hands-on experience that’ll set your resumé apart from the stack.
Each of these alumni were once in your shoes, deciding on a master’s degree. Explore their educational path and how it set their life in motion.
Huanghe Li
MS Macromolecular Science & Engineering, 2017
Rensselaer Polytechnic Institute
Chemical Engineering PhD Candidate
Midori Maeda
MSE Macromolecular Science and Engineering, 2016
Georgia Tech
PhD Candidate
Justin Silpe
MS in Macromolecular Science & Engineering, 2013
Harvard University
Postdoctoral Researcher
Nathan Wood
MSE Macromolecular Science and Engineering, 2017
BASF
Technical Support Engineer
Omkar Gupte
MS Macromolecular Science and Engineering, 2016
Georgia Institute of Technology
PhD Candidate
Huanghe Li
Shanghai Jiao Tong University, BS Polymer Chemistry, 2015
University of Michigan, MS Macromolecular Science & Engineering, 2017
Rensselaer Polytechnic Institute
Chemical Engineering PhD Candidate
CloseCareer Summary
My pragmatism philosophy of engineering research was built during my master’s period in U-M, and has been developing and helping me on PhD research work here in RPI Chemical Engineering. That is, to implement your ideas from the beginning and develop your ideas during practice. Engineering research is not done from just literature reviewing, but more from your own discoveries in the lab.
Reflection on Time Spent at U-M
Talk to professors more about your future research and career plan, especially when applying to new positions (grad school or industry). There are many professors (like Dr. Jinsang Kim) caring about your personal development!
Midori Maeda
University of Florida, BSE Materials Science and Engineering, 2014
U-M, MSE Macromolecular Science and Engineering, 2016
Georgia Tech
PhD Candidate
CloseCareer Summary
Realizing early on that I was interested in a career in research, my time in undergrad consisted of two materials research experiences and three Research and Development (R&D) internships. These experiences helped me to decide to pursue a career in R&D in industry developing medical products or biomaterial therapeutics. I realized that the type of hands-on roles I was targeting required a Ph.D and more biomedical/biology skills to supplement my materials background. That led me to pursue a Master’s degree which helped me gain the skills that I still needed to transition from polymeric materials research into more biomedical research. Now I’m conducting biomedical engineering research as a Ph.D. student where I get to use both my materials background and biomedical training every day. After completing a Ph.D. I’ll be applying to R&D jobs related to biomaterial design and manufacturing.
How does your Master’s degree differentiate you from others?
My Master’s degree in Macromolecular Science and Engineering communicates my in-depth specialization in polymers, while my thesis work during my Master’s shows my experience in applying these principles to biomedical applications. Without my Master’s degree, I wouldn’t have been able to pursue the opportunities that I am able to today. However, as an important note, I could have pursued comparable opportunities had I gone directly from BSE to Ph.D.
Reflection on Time Spent at U-M
During my time at Michigan as a graduate student, being involved in two organizations – the Society of Hispanic Professional Engineers (SHPE) and the Macro-ACS chapter – helped me find community, meaningful friendships, support, and so much advice that helped me during the program and while applying to Ph.D. programs. My advice is to find at least two mentors, one who is a few years ahead in your program, and another outside of your program but pursuing similar goals to yours. Their guidance will be valuable as you confront challenges and as you plan the next steps after graduation.
Justin Silpe
University of Michigan, BS in Macromolecular Science & Engineering, 2012
University of Michigan SUGS, MS in Macromolecular Science & Engineering, 2013
Harvard University
Postdoctoral Researcher
CloseCareer Summary
I completed my undergraduate/graduate concurrent program at Michigan and knew that I wanted to continue doing research. I became interested in molecular biology and thought that having an engineering perspective might help me think about important questions in the field differently. I am now finishing up my PhD in molecular biology this month and will continue on in academia and hope to further diversify my skills as a postdoctoral research fellow in a more chemistry field. I have found basic science research extremely rewarding and I think that it is benefited by people with diverse backgrounds, experiences, views.
Reflection on Time Spent at U-M
I enjoyed the opportunity to learn about different areas of research being conducted all over the University.
Nathan Wood
University of Michigan, BSE Chemical Engineering, 2016
University of Michigan, MSE Macromolecular Science and Engineering, 2017
BASF
Technical Support Engineer
CloseCareer Summary
(2.5 years) as a Scientist developing next generation materials for the 3D printing industry. (3 months – present) as an engineer supporting business growth for a separate 3D printing technology.
How does your Master’s degree differentiate you from others?
The Master’s degree helped by providing learning opportunities and time to explore new subjects that I started to get more interested in. My interests transitioned from my undergrad major, and the Masters degree provided personal improvement as well as benefits when finding my first job.
Reflection on Time Spent at U-M
Take time to really learn what you like to do and what you are good at. Don’t be pressured into “checking off boxes” or chasing an opportunity that you don’t really want (aka job at a company just because it has a prestigious reputation) because it may look good on a resume. College is a time to really figure out what you want to do before you get hit by the demands of a full time job or graduate school.
Omkar Gupte
Institute of Chemical Technology, Mumbai, BTech Polymer Engineering, 2015
University of Michigan, MS Macromolecular Science and Engineering, 2016
Georgia Institute of Technology
PhD Candidate
CloseCareer Summary
I am a PhD candidate in Materials Science and Engineering at Georgia Tech. The time I spent at U-M working on research projects helped me to think independently which has contributed in a big way during my PhD experience
Advice to Students
The ACS Poly/PMSE U-M chapter was very interesting. I was also a part of Macro Outreach program and had some really nice experiences talking about polymers to middle and high school students.
Discover the value of a master's degree!
On average, U-M graduates with a master’s degree in an engineering field can earn 15-25% more than those with a bachelor’s degree in engineering. Use the links below to research average salaries based on a U-M engineering master’s degree, experience level, and desired work location
Other potential titles not listed: polymer scientist/engineer, polymer chemist, process engineer.
