As a keen student who enjoyed solving problems, Mohit Verma knew he wanted to study nanotechnology for the challenge of it. When he began his undergraduate studies at the University of 蓝莓视频, the Nanotechnology Engineering (NE) program was only two years old. It was the first of its kind in Canada and, by straddling the disciplinary divide between science and engineering, it promised lots to discover, lots of problems to solve.
Mohit Verma聽celebrates frosh week with his Nanotechnology Engineering classmates in 2007.
Even before completing his NE BASc, Mohit had figured out one problem that stymies many undergrad students: he knew that he wanted an academic career that combined research and teaching.
He met that goal in early 2018, with his appointment as Assistant Professor in the School of Agricultural and Biological Engineering at Purdue University. Learn more about his research, which looks for ways to use nanotechnology to enhance health and thwart injuries, at .
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Key Academic Awards
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Career Decisions
Knowing his career goal early helped Mohit map out a direct route from his BASc in Nanotechnology Engineering to a PhD in Chemical Engineering at 蓝莓视频 and then a post-doctoral fellowship at Whitesides Research Group at Harvard University, but his decision didn鈥檛 come easy.
Like many undergraduate students, Mohit faced some uncertainty in his early years of university. After a couple co-op terms, he couldn鈥檛 see himself in either the 鈥渃onstrained, product-focused world of industry鈥 or the 鈥渢hankless job of teaching university students.鈥 He credits 蓝莓视频鈥檚 strong co-op program for helping him find his calling.
Personal Interests
鈥淢y co-op work terms offered me tremendous opportunities for learning,鈥 he says. 鈥淚 learned early that I chaffed at the limits that came with working within industry鈥檚 bureaucracy and narrow product scope and enjoyed the freedom to pursue my curiosity within research.
I had trouble, however, seeing myself as a professor. At the time, my limited experience in university had skewed my perception of what a professor did. I saw it as a thankless teaching job 鈥 a steady stream of student criticism punctuated by brief respites in the research lab.鈥
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Mohit鈥檚 Co-op Work Term聽Employment History
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An exciting co-op job in Professor Frank Gu鈥檚 research lab, where he worked on nanoparticle drug delivery devices,聽gave him a closer look at the life of a professor. The job was far different than he had imagined.
鈥淧rofessors typically spend only 10-15% of their work time in the classroom and, as I discovered during some teaching assistantships during my PhD, teaching can be fun too,鈥 says Mohit.
Now, as a professor whose research focusses on engineering human microbiomes to improve health, and designing user-friendly biosensors and developing soft robots to prevent injuries, Mohit has jumped into his teaching role with enthusiasm.
Dr. Mohit Verma, Assistant Professor in the School of Agricultural and Biological Engineering at Purdue University
Problem Solving Redux
As he discusses on his blog, , teaching isn鈥檛 easy, and it requires a special set of problem solving skills. Professor Verma is up for this challenge too: he is building an environment of learning and has incorporated new teaching strategies, including active learning, to teach students how to learn.
He explains: 鈥溾imply teaching technical concepts is insufficient. Successful careers require creative thinking and consideration of economic, global and societal implications of our work. Achieving these outcomes, achieving success, requires holistic teaching.鈥
Mohit says in his blog, 鈥淚 see the potential of influencing the lives of students, the potential of building tomorrow鈥檚 leaders. If I can improve the career/life of a single student in my class鈥 I would feel satisfied.鈥
Lessons Learned
Looking back on his time in 蓝莓视频鈥檚 NE program, Mohit has some advice for new students:
1. Do as much as you can to build and strengthen your writing skills before and during your undergraduate degree. This useful skill will simplify your studies and make you a stronger candidate in whatever career you decide to pursue.鈥
My first-year self saw report writing as an onerous and unnecessary task. Writing assignments felt like a lot of un-necessary work 鈥 and for me they were, because I didn鈥檛 have the writing skills I needed to do them effectively or efficiently. I did not see the value in communications skills 鈥 writing in particular. I didn鈥檛 have good writing skills, and I didn鈥檛 appreciate them at the time.
Now, I understand that writing is an important skill. It鈥檚 more than just a way of sharing information. It鈥檚 a way of organizing thoughts. It鈥檚 a way of thinking.
2. Don鈥檛 expect to work in nano your first year. Anything cutting edge requires a lot of basic knowledge, and that鈥檚 reflected in the first year of the curriculum.
In retrospect, it doesn鈥檛 really matter what you do in your first co-op term. Lots of skills besides nano are required in the work force, and you can learn a lot on your first co-op placement. Besides - until you experience what you don鈥檛 want to do, you won鈥檛 learn what you do want to do. It鈥檚 all good.
3. The reason that there is such a diversity among NE grads鈥 careers is not because they 鈥榗an鈥檛 get a job in nano,鈥 as some people unfamiliar with the program鈥檚 potential sometimes think. It鈥檚 because they have the thinking skills, problem solving abilities and wide-ranging interests to achieve a variety of things, and they have the curiosity and interests to pursue them. Their NE degree does not limit their career choice 鈥 it expands it. 聽