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Exploiting One’s True Potential

Underachiever is not a term one would use to describe Dr. Carlos Rinaldi Ramos. Late in 2007, at 32, he was feted at the White House with the government’s highest honor for young researchers: the Presidential Early Career Awards for Scientists and Engineers. A year ago, Rinaldi was promoted to full professor of chemical engineering at the University of Puerto Rico-Mayagüez.

But in high school, guidance counselor Carmen Sánchez-Quintana scolded him for not living up to his potential. “She said, ‘You could have been the top student in the class if you’d worked on it,’” Rinaldi recalls. “I promised her I would get a 4.0 in college. Then I went to college in Puerto Rico and, every semester, I would go back and show her my transcript. And I kept my promise.” And more.

The undergrad valedictorian went on to earn two master’s degrees and a Ph.D. in chemical engineering at the Massachusetts Institute of Technology. Straight out of MIT, he snagged an assistant professorship at UPR-Mayagüez. He delayed a promotion to seek a National Science Foundation Faculty Early Career Development grant for nontenured assistant professors. In 2006, the NSF rewarded him twice: with a $411,521 CAREER grant and a $1.15 million Nanoscale Interdisciplinary Research Team grant.

Both fund Rinaldi’s research into magnetic nanoparticles, fluids composed of tiny magnets “about a thousand times smaller than the diameter of your hair,” he says. The particles can be moved around in a magnetic field and used as contrast agents in a magnetic resonance imaging machine. Rinaldi and his co-investigators hope magnetic fluids will be used to treat cancer.

“In targeted drug delivery, it can be used to concentrate the particles in a certain part of the body to minimize the area affected by (chemotherapy),” Rinaldi says. “Imagine the particles are in a tumor and you apply a magnetic field to them. In an oscillating magnetic field, particles respond by dissipating energy and heating the tumor — and, hopefully, destroying it. It’s called magnetic fluid hyperthermia. It’s something that’s been shown in animals. We’re looking at it so it’s suitable for clinical trials on humans.”

Rinaldi traces his passion for research to his undergraduate days. Thanks to an NSF Research Experience for Undergraduates and an MIT summer research program, he spent two summers at Cornell University and MIT. The research bug bit.

Rinaldi spread that passion to include academia as well as the community. He runs a summer program for precollege teachers who spend several weeks in UPRM labs learning about research. Then the teachers take the experiences back to their classrooms. Rinaldi also leads a summer NSF Research Experience for Undergraduates — the same program that inspired him as an undergrad.

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