Naomi Halas

Halas received her bachelor's degree from La Salle University in 1980. She obtained her master's degree from Bryn Mawr College in 1984 and her doctorate from Bryn Mawr in 1987.^[5] She was a graduate research fellow at the IBM Thomas J Watson Research Center during her doctoral studies, during which time she developed the first "dark pulse" soliton with Dieter Kroekel, Giampiero Giuliani and Daniel Grischkowsky.^[6] A "dark pulse" soliton is a standing wave that propagates through an optical fiber without spreading and which consists of a short interruption of a light pulse. She was also part of the first research efforts focusing on time-domain terahertz spectroscopy during her time at IBM.^[7]

Halas was a postdoctoral research fellow at AT&T Bell Laboratories before joining Rice University in 1990, where she now heads the nanoengineering research group bearing her name.^[5] She was appointed professor in the department of electrical and computer engineering and the department of chemistry in 1999, and three years later was named the Stanley C. Moore Professor in Electrical and Computer Engineering. In 2004, she became the director of the Laboratory for Nanophotonics at Rice. She has also been a professor in the department of biomedical engineering and the department of physics since 2006 and 2009, respectively.^[8]

Halas' work in the 21st century focuses on noble metal nanoshells covering semiconducting or insulating cores. Her research was the first to experimentally show that nanoshells with different dimensions and shapes have different plasmonic resonances, and that these resonances could therefore be tuned by changing nanoparticle geometries.^[9] Controlling light-matter interaction of these plasmonic nanoparticles includes applications in chemical sensing, catalysis, and energy harvesting, as well as photodynamic therapy and other biomedical applications.

In 2003, Halas and her colleague Jennifer L. West were awarded the Nanotechnology Now Best Discovery Award for their groundbreaking work to develop a cancer therapy based on metallic nanoshells.^[10] Halas also received the Innovator Award from the US Department of Defense Congressionally Directed Breast Cancer Research Program, and was awarded a four-year $3 million grant to conduct further research into the treatment.^[11]

Her research also looks at how to integrate plasmonic particles with other photonic systems. The Halas groups collaborates with the Energy Frontier Research Center at the National Renewable Energy Laboratory to study using plasmonics to improve the energy harvesting properties of semiconductor quantum dots and nanocrystals.^[12] They use surface-enhanced Raman spectroscopy and surface-enhanced infrared absorption to develop single-molecule sensing techniques.^[12]

• 2024 C.E.K. Mees Medal^[13]
• 2018 Julius Edgar Lilienfeld Prize^[14]
• 2017 Willis E. Lamb Award^[15]
• 2017 Weizmann Women and Science Award^[16]
• 2015 R. W. Wood Prize, Optica^[17]
• 2014 SPIE Biophotonics Technology Innovator Award^[18]
• 2014 Frank Isakson Prize for Optical Effects in Solids, American Physical Society^[19]
• 2012 Doctor of Science honoris causa, University of Victoria, Canada^[20]
• 2012 Alexander M. Cruickshank Award, Gordon Research Conferences^[21]
• 2010 R. E. Tressler Award, Materials Science and Engineering, Penn State University
• 2007 Doctor of Science honoris causa, La Salle University
• 2003 Nanotechnology Now Best Discovery Award^[11]

She has been elected to the National Academy of Sciences (2013), National Academy of Engineering (2014), National Academy of Inventors (2015), American Association for the Advancement of Science (2005), and American Academy of Arts and Sciences (2009). She is a fellow of the American Physical Society (2001), Optica (2003), SPIE (2007), the Institute of Electrical and Electronics Engineers (2008), and the Materials Research Society (2013).

Scholia has an author profile for Naomi Halas.

• L R Hirsch; R J Stafford; J A Bankson; et al. (3 November 2003). "Nanoshell-mediated near-infrared thermal therapy of tumors under magnetic resonance guidance". Proceedings of the National Academy of Sciences of the United States of America. 100 (23): 13549–13554. Bibcode:2003PNAS..10013549H. doi:10.1073/PNAS.2232479100. ISSN 0027-8424. PMC 263851. PMID 14597719. Wikidata Q37089559.
• E. Prodan; C. Radloff; N. J. Halas; P. Nordlander (1 October 2003). "A hybridization model for the plasmon response of complex nanostructures". Science. 302 (5644): 419–422. Bibcode:2003Sci...302..419P. doi:10.1126/SCIENCE.1089171. ISSN 0036-8075. PMID 14564001. Wikidata Q79176466.
• Naomi J Halas; Surbhi Lal; Wei-Shun Chang; Stephan Link; Peter Nordlander (4 May 2011). "Plasmons in strongly coupled metallic nanostructures". Chemical Reviews. 111 (6): 3913–3961. doi:10.1021/CR200061K. ISSN 0009-2665. PMID 21542636. Wikidata Q84034991.

• Naomi Halas Rice webpage
• "Curriculum Vitae - Naomi J. Halas, D.Sc". 2016-10-05. Retrieved 2018-01-29.
• The American Hungarian Federation: Featured Member
• CNN biography and interview with Naomi Halas, June 2007
• An SPIE video interview with Naomi Halas about metallic nanoparticles
• Nanotechnology Now article of Best Discovery Award
• Bryan Bunch and Alexander Hellemans eds History of Science and Technology Houghton Mifflin, 2004. 1987 entry
• Texas Nanotechnology Initiative, Sweating the Small Stuff: Nanotechnology and Texas' Economic Future, 2003
• PBS NOVA ScienceNow Profile - a free 10-minute video clip
• Naomi Halas publications indexed by Google Scholar