Mit Chemical Engineering Phd Application – “When I stumbled upon the PhDCEP program while looking for graduate school, I felt it was the program of my dreams. It had the research experience and business component I was looking for, all together in one show.”
When I graduated, I was debating between getting a PhD or working in industry followed by business school. I want to work at the interface of business and technology, perhaps in a management or business development role in a technical company. Therefore, the combination of work experience and business school seemed like a logical path for me. However, during my internship, I noticed that people in senior management positions have doctoral degrees. I thought that having a PhD would open many doors for me, but having a doctorate and an MBA on the side would mean too much time in school. When I came across the PhDCEP program while searching for my graduate school, I felt it was the program of my dreams. It had the research experience and business side that I was looking for, all together in one program.
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As an undergraduate, I gained research experience as a senior researcher in Professor Maboudian’s laboratory. My summer internships at Genentech (2010) and Genencor (2011) gave me work experience in biotechnology, both for healthcare and industrial biotechnology. I also gained teaching experience as an undergraduate teaching assistant for an organic chemistry class. During my early years, I was very involved in my sorority, Gamma Phi Beta, and I was a member of Tau Beta Pi and AIChE. In my spare time, I started running outdoors as a hobby and ran the Nike Women’s Half Marathon in San Francisco. I also enjoy traveling and seeing new places. Comment: “For me, the most rewarding part of my job is working with these talented and bright students,” says Roman.
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“For me, the most rewarding part of my job is working with these talented and intelligent students,” says Roman.
A few years into school, Yuriy Roman had what he calls a “turning point” in his career. He realized that all the classes he had taken led him to a deeper understanding of the concepts he needed to create his own solutions to chemical problems.
“All the courses I took suddenly came together, and that’s when I started to understand why I needed to know something about thermodynamics, kinetics and transport. All these concepts that I was I saw them as more theoretical things in my classes, then I saw them being used together to solve a problem. That is what changed everything for me,” he says.
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As a new faculty member at MIT’s Department of Chemical Engineering, Roman now tries to guide his students to their injection sites.
“It’s amazing to see this happen with my students,” says Roman, noting that working with students is one of his favorite things about being an MIT professor. His students are also heavily involved in his lab’s work: coming up with new tools to produce fuels, plastics and other useful materials in an efficient and sustainable way.
“For me, the most rewarding part of my job is working with these talented and smart students. They really excel at coming up with unusual ideas, and I love it,” says Roman. that. I think MIT’s greatest asset is, well, the students. It’s a pleasure working with them and learning from them, and I hope to have the opportunity to teach them some of the things that I know.”
Roman, who grew up in Mexico City, loved chemistry from an early age. He says: “I liked to play with things like soap and bleach, which were probably not the safest. Another activity that I liked was to juice cabbage to produce a pH indicator. (Red cabbage contains a chemical called anthocyanin that changes color when in acidic or basic conditions.)
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Roman’s mother was from Belarus, and with her multicultural background she developed a strong interest in learning about other cultures and traveling to other countries. He won a full scholarship to the Institute of Technology and Higher Education in Monterrey, Mexico, for high school and college, but in his first year of college, he became interested in going abroad to finish his degree. his.
A friend who had graduated from MIT at the time encouraged Roman to apply to schools in the United States, and he ended up transferring to the University of Pennsylvania.
“My parents were very surprised. In Mexico, it is common to live with your parents for a long time after college. The issue of going to college is almost non-existent,” says Roman.
Roman decided to study chemical engineering, which allowed him to combine his love for chemical reactions with his desire to follow in his brother’s footsteps who was an engineer. After graduating, he planned to find a job in the chemical industry, but his girlfriend at the time, who is now his wife, planned to start medical school. He suggested that she go to school with him, so they ended up attending the University of Wisconsin in Madison.
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There, Roman studied with James Dumesic, a professor of chemistry working on biofuels. For his PhD thesis, Roman developed a process to produce a chemical called hydroxymethylfurfural (HMF) from biomass-derived sugars. HMF is a “chemical platform” that can be converted into many different end products, including fuel.
After graduating, Roman thought he would work in a chemical company, but at Dumesic’s suggestion, he decided to go to school instead.
“When I started talking to different universities, I realized that as a professor, you can have a lot of freedom to explore ideas and work on long-term problems, and still be able to,” he says. a lot of contact with the industry,” he says. “You have the power to control your time and where you spend it, in terms of effort to invest in basic science.”
After graduation, he got a job at MIT but spent two years doing a postdoc at Caltech, while his wife stayed at the University of California Los Angeles. Working with Mark Davis, a professor of chemical engineering, Roman began studying a material called zeolite, which has pores the size of many common molecules. Roman says that the entrapment of molecules in these holes causes certain chemicals to happen faster than they would otherwise.
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Davis also instilled in Rome the importance of making one’s own catalysts rather than relying on those produced by others, which allowed more control over the chemical reactions and materials produced. While many research groups focus on designing catalysts or using existing catalysts to develop new ways to synthesize materials, Roman believes it’s important to work both ways.
“When you’re in control of creating your own catalysts, you can do more structured studies. You have the ability to control things at will,” he says. “It’s working at this time of mixing and matching that is the key to discovering new chemistry.”
After arriving at MIT in 2010, Roman launched his lab with a focus on designing catalysts that can produce new and exciting materials. An important area of research is the conversion of biomass components, such as lignin, into fuels and chemicals. One of the biggest challenges in this type of synthesis is removing the oxygen atoms from these molecules, which usually contain more oxygen atoms than fuel.
During the brainstorming session, Roman and his students came up with the idea of using a metal oxide catalyst in which some oxygen atoms have been removed from the surface, creating small pockets known as “voids”. Oxygen molecules can be held tightly in those gaps, allowing their carbon-oxygen bonds to break easily so that oxygen can be replaced by hydrogen.
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In another project, Roman’s lab developed a more sustainable alternative to catalysts made from precious metals such as platinum and palladium. These metals are used in many renewable energy technologies, including fuel cells and lithium-ion batteries, but they are among the rarest metals in the world.
“If we were to move from our current cars with internal combustion engines to the fuel cell fleet, there isn’t enough platinum in the world to finance that,” says Roman. “You need to use a lot of resources on Earth because there aren’t enough resources important enough to do that.”
In 2014, Roman and his students showed that they could make powerful catalysts from chemicals called metal carbides, which are made of many metals such as tungsten, coated only with a thin film. of a rare metal such as platinum.
“It is a big fight because the energy sector is very big. Scales