The "survival" tactics that helped propel her to success were honed in her earliest years; raised in poverty, she learned as a child to protect herself against daily intimidation in a tough New York neighborhood. Mildred started out in college planning to go into elementary school teaching. When she was a sophomore at Hunter College, Mildred met Rosalyn Yalow, who taught her physics and later became a Nobel Laureate in medicine (1977). It was in part due to her interactions with Rosalyn Yalow that Mildred recognized her potential as a physicist and developed higher goals for herself. Also coming from a disadvantaged background, Yalow encouraged the young undergraduate to press ahead despite detractors, taught her to recognize and seize opportunity, and followed her career as it unfolded with "advice and love".
In 1958, Mildred married Dr. Gene F. Dresselhaus, who did his PhD thesis on the first theory of cyclotron resonance in solids. He is a co-author on many of Mildred's papers and often will fill in as lecturer when Mildred is out of town. She is a frequent traveller and family members have had numerous free trips on all her frequent flier miles.
After their marriage, Millie (as she is best known) moved to Cornell University in Ithaca, New York, to join Gene and this is where Millie did her NSF sponsored Post-Doctoral fellowship where she continued her studies on superconductivity. After her post-doctorate days were over, she and her husband moved to the Boston area where they both got jobs at MIT's Lincoln Laboratory in Lexington, Massachusetts. Millie and Gene both worked at Lincoln Labs for the next 7 years. During that time she switched from research on superconductivity to magneto-optics, and carried out a series of experiments which led to a fundamental understanding of the electronic structure of semimetals, especially graphite. With 4 young children, in 1967, she was invited by Louis Smullin, head of the Electrical Engineering Department, to come to MIT and be a visiting professor for a year. She was so enthusiastic about teaching undergraduates and graduate students, and about working with graduate students on research projects, that she soon was appointed as a tenured full professor.
A leader in promoting opportunities for women in science and engineering, Dresselhaus received a Carnegie Foundation grant in 1973 to encourage women's study of traditionally male dominated fields, such as physics. In 1973, she was appointed to The Abby Rockefeller Mauze chair, an Institute-wide chair, endowed in support of the scholarship of women in science and engineering.
She has greatly enjoyed her career in science. As Millie says about working with MIT students, "I like to be challenged. I welcome the hard questions and having to come up with good explanations on the spot. That's an experience I really enjoy." She has over her career graduated over 60 PhD students and has given many invited lectures all over the US and worldwide on her research work. Her recent research interests have been on little tiny things, which go under the name of nanostructures, carbon nanotubes, bismuth nanowires and low dimensional thermoelectricity.
Some of this biographical text was taken from Harvard Magazine's January-February 1980 article on Mildred S. Dresselhaus.