Evelyn Fairman: At the Nano Scale
Evelyn Fairman of Bangor graduated from the University of Maine in May with a bachelor’s degree in chemical engineering, and minors in renewable energy engineering and mathematics. This fall, she has begun graduate work in energy science, technology and policy, with a disciplinary concentration in chemical engineering at Carnegie Mellon University. Upon graduation in May 2015, she plans to work with alternative liquid fuels in an industrial setting.
For two years while at UMaine, Fairman was involved in nanocellulose research. Her work, which applied cetyltrimethylammonium bromide (CTAB) in order to dry and rehydrate nanocellulose for easier transport, was recognized with a 2013 UMaine Center for Undergraduate Research Fellowship. This spring, her work was featured in the Maine Journal, and Fairman was recognized by UMaine with the Edith M. Patch Award. Most recently, the poster from her Honors thesis, “Avoiding Aggregation During the Drying and Rehydration Phases of Nanocellulose Production,” was a finalist in the Society of Women Engineers Collegiate Technical Poster Competition.
Earlier this year, Fairman presented her research findings at the 2014 National Collegiate Research Conference at Harvard University. This summer, she also spoke at the 2014 TAPPI International Conference on Nanotechnology for Renewable Materials in Vancouver, B.C.
In her research, Fairman was mentored by engineering faculty members David Neivandt, James Beaupre and Karen Horton; Honors College Dean Francois Amar; and forest operations professor Douglas Gardner.
In November, Fairman was hired by the Linde Group, a multinational industrial gases company. She will be based in New Jersey, working in the company’s marketing and innovation development program.
Why did you decide to major in chemical engineering?
I chose to major in chemical engineering because I wanted to change the way energy is manufactured and distributed. I felt obligated as an educated citizen to reverse the effects of climate change by reducing our nation’s dependence on fossil fuels. As a junior in high school, I hoped to one day design an alternative liquid fuel for the transportation sector. I was especially interested in the potential of fuel cells. I knew I wanted to major in engineering, but it was the University of Maine’s Consider Engineering summer program that convinced me to choose chemical.
How did you get involved in undergraduate research?
I contacted David Neivandt after I graduated high school. I had met him at the Consider Engineering program the previous summer, so I felt comfortable reaching out to him via email. He knew I was an incoming first-year chemical engineering major, and he was more than happy to assign me a student research assistantship under the guidance of one of his Ph.D, students, James Beaupre. The three of us continued to work on various research projects throughout my undergraduate career at the University of Maine.
What difference did the research make in your overall academic experience?
My classroom experience was richer because I was able to reinforce academic topics with hands-on experimental testing. I always loved math and science in high school, but I chose engineering because it was an applied field. It’s not often that an undergraduate has the opportunity to collect and analyze data for an independent research project, while getting paid. I was extremely lucky to have Dave and James as mentors. The research experience gave me the confidence to speak up in class, to ask questions if I didn’t understand the material, to present my results in weekly meetings, and to never hesitate to use upperclassmen and graduate students as resources. Indeed, my research experience convinced me by the end of the summer before my freshman year at UMaine that chemical engineering was the right field for me.
How do you describe your research to lay people?
That is a very good question. It is very important for scientists to be able to translate their research to layman’s terms, not just to fuel curiosity in those who work outside the field, but also for funding purposes. Here is what I usually say: The state of Maine has a strong pulp and paper industry. I am sure you know that we use trees to make paper. Well, trees — and all plant matter — are composed of cellulose. Cellulose is a useful material, but if you break it down into smaller pieces until it reaches nano-scale dimensions, we call that nanocellulose. Nanocellulose has very unique properties that allow it to be applied in a wide variety of fields. There is, however, a problem with the way nanocellulose is being produced industrially. Currently, nanocellulose is produced in an aqueous slurry. The water in this slurry eventually needs to be removed. However, when we remove the water, the nanocellulose clumps together and loses its nanoscale dimensions. Thus, its desirable properties are lost and it is no longer nanocellulose. My research project has a patented solution to this problem: We use the chemical additive CTAB to effectively dry and rehydrate nanocellulose.
Which faculty mentor did you work with most and what did you learn most from him or her?
I worked most closely with James Beaupre. James encouraged me to think outside the box and to consider all possibilities before drawing a conclusion. His guidance taught me to pay close attention to detail both during experiments and during data analysis. Outside the laboratory, his positive attitude reminded me not to forget the big picture.
Why did you choose UMaine?
I chose UMaine for the strong engineering program. Employers all over the U.S. recognize UMaine graduates as hardworking, genuine people. Having worked as an R&D intern for a chemical distribution company based in Delaware, I can say with confidence that UMaine engineers have a very good reputation outside of the state.
What is the most interesting, engaging or helpful class you took at UMaine?
I really enjoyed being in the Honors College. I know that’s not a specific class, but it allowed me to think about problems from alternative perspectives and to interact with students with different majors than my own. Also, my research project ultimately served as my undergraduate thesis for the Honors College. I cannot reflect on my academic experience at UMaine without thinking of the Honors College.
What was your favorite place on campus?
My favorite place on campus was the studio in 1944 Hall because I was actually really involved in the dance department at UMaine.
What advice do you have for incoming students?
Learn to manage your time and to study effectively. Never hesitate to reach out to upperclassmen in your major or faculty in your department. Once you’ve mastered the classroom environment, get involved in extracurricular activities, student clubs and/or Greek life. Join a professional organization (SWE, AIChE, etc.). Make a five-year plan. You’ll be surprised at graduation when you’ve achieved your original collegiate goals. Always push yourself outside of your comfort zone. Take a summer internship or study abroad if your program allows. Attend a hockey game and learn the Stein Song.
Have you had an experience at UMaine that has shaped the way you see the world?
I was a member of Sophomore Eagles, one of the four traditions groups on campus. The Sophomore Eagles is composed of 12 second-year female undergraduate students who exemplify five personality traits: scholarship, leadership, friendship, dignity and character. I cannot speak more highly of the other 11 young women who were Eagles along with me.
Ten years from now, what do you hope to be doing?
I would love to use my engineering background to eventually move into a policymaking role, perhaps at the EPA or at the state level. If that doesn’t happen, then I can see myself working as an investment banker in the energy sector.