Evelyn Hu

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Evelyn L. Hu
Born1947
New York City, New York, USA
NationalityUnited States American
Alma materBarnard College
Columbia University
Known forFabrication of nanoscale devices
AwardsNAE (2002)
NAS (2008)
IEEE Andrew Grove Award
Scientific career
FieldsApplied Physics
InstitutionsHarvard University
U C Santa Barbara
Doctoral advisorChien-Shiung Wu[citation needed]

Evelyn L. Hu (Chinese: 胡玲) is Gordon McKay Professor of Applied Physics and Electrical Engineering at Harvard University. In 2019, she received the IEEE Andrew Grove Technical Field Award.

Hu was elected a member of the National Academy of Engineering in 2002 for contributions to the processing of semiconductor structures and devices.

Early life and education[]

Hu's parents emigrated to the United States from China in 1944–1945. She was born in New York City. An alumna of Hunter College High School, she received her B.A. from Barnard College in 1969, and her M.A. and Ph.D. from Columbia University, all in physics, in 1971 and 1975, respectively.

Career and research[]

Hu was employed at AT&T's Bell Laboratories from 1975 to 1984, when she joined University of California, Santa Barbara (UCSB) as a full professor, a position she has held since 1984. She served UCSB's Department of Electrical and Computer Engineering as vice chair from 1989 to 1992 and as chair from 1992 to 1994. In 2008, Hu was elected to the United States National Academy of Sciences.[1] She has been a pioneer in the fabrication of nanoscale electronic and photonic devices, and was named Gordon McKay Professor of Applied Physics and Electrical Engineering in Harvard University's School of Engineering and Applied Sciences (SEAS), effective January 1, 2009. She has also served since 2000 as scientific co-director of the California NanoSystems Institute, a joint initiative at UCSB and the University of California, Los Angeles.

Hu has made major contributions to nanotechnology by designing and creating complex nanostructures. Her work has focused on nanoscale devices made from compound semiconductors and on novel devices made by integrating various materials, both organic and inorganic. She has also created nanophotonic structures that might someday facilitate quantum computing. Hu's seminal work in nanofabrication has included high-resolution patterning and high-resolution etching of circuits onto nanoscale materials. She has also developed biological approaches to nanotechnology, using biological assembly pathways to control the composition and structure of novel devices. Some of her research ideas led to her co-founding of Cambridge, Massachusetts-based Cambrios Technology, a start-up that is developing new, cost-effective materials of importance for electronic device applications. At UCSB, she has led the Institute for Quantum Engineering, Science and Technology, the National Science Foundation-funded Center for Quantized Electronic Structures and Center for Robotic Systems in Microelectronics, and the UCSB component of the National Science Foundation's National Nanofabrication Users Network.

According to a winter (November) 2012 online news story article released by the Harvard School of Engineering and Applied Sciences (featured on the Harvard University web site's home page), Hu is exploring the use of gallium nitride wafers at the nano-scale level in the formation and use of quantum dots in nanophotonics (the study of and manipulation of light via materials- photonics- at the nano-scale level), which could eventually find use in smartphone screens and the (less-risky, non-invasive) fluorescent tagging of biological cells for their study in health and disease.[2] Hu is a reviewing editor at the journal Science.

Awards[]

References[]

  1. ^ "Evelyn Hu National Academy of Sciences Membership Page". Retrieved February 22, 2020.
  2. ^ "Archived copy". Archived from the original on 2013-04-09. Retrieved 2012-11-23.CS1 maint: archived copy as title (link)
  3. ^ "Evelyn Hu". hugroup.seas.harvard.edu. Retrieved 2016-03-29.
  4. ^ Sarah Springman: Future-ready graduates. Press release, ETHZ, 2019-11-16. Retrieved 2019-11-17

External links[]

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