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Moungi G. Bawendi

Affiliations: 
Chemistry Massachusetts Institute of Technology, Cambridge, MA, United States 
Area:
quantum dots
Website:
http://chemistry.mit.edu/people/bawendi-moungi
Google:
"Moungi G. Bawendi"
Bio:

http://www.nasonline.org/member-directory/members/2539086.html
http://nanocluster.mit.edu/
http://chemistry.library.nd.edu/resources/genealogy/chemistry/documents/BawendiMG.pdf

Mean distance: 8.41
 
SNBCP
Cross-listing: Physics Tree

Parents

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Karl F. Freed grad student 1988 Chicago
 (From the biggest to the smallest polyatomic molecules : statistical mechanics and quantum mechanics in action)
Takeshi Oka grad student 1988 Chicago
Louis E. Brus post-doc 1988-1990 Bell Labs

Children

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Katie Silberstein research assistant 2006-2010 MIT
Christopher B. Murray grad student 1995 MIT
David J. Norris grad student 1995 MIT
Cherie R. Kagan grad student 1996 MIT
Masaru K. Kuno grad student 1998 MIT
Joseph B. Tracy grad student 2005 MIT
John P. Zimmer grad student 2006 MIT
Jonathan E Halpert grad student 2003-2008 (PoliSci Tree)
Scott M. Geyer grad student 2010 MIT
Jian Cui grad student 2014 MIT
Justin R. Caram post-doc
Dörthe M. Eisele post-doc (Physics Tree)
Lili Wang post-doc
Lea Nienhaus post-doc 2015- MIT
Hedi Mattoussi post-doc 1987-1988 MIT
Sang-Wook Kim post-doc 2003-2004 MIT
Preston Todd Snee post-doc 2003-2006 MIT
Jongnam Park post-doc 2006-2010 MIT
Jing Zhao post-doc 2008-2012 MIT
Jie Bao post-doc 2010-2013 MIT (Physics Tree)
Mark W.B. Wilson post-doc 2012-2016 MIT
BETA: Related publications

Publications

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Hartono NTP, Thapa J, Tiihonen A, et al. (2020) Author Correction: How machine learning can help select capping layers to suppress perovskite degradation. Nature Communications. 11: 5675
Bi H, Huo C, Song X, et al. (2020) Room-Temperature Phosphorescence and Low-Energy Induced Direct Triplet Excitation of Alq Engineered Crystals. The Journal of Physical Chemistry Letters. 9364-9370
Hartono NTP, Thapa J, Tiihonen A, et al. (2020) How machine learning can help select capping layers to suppress perovskite degradation. Nature Communications. 11: 4172
Montana DM, Nasilowski M, Hess WR, et al. (2020) Monodisperse and Water-Soluble Quantum Dots for SWIR Imaging via Carboxylic Acid Copolymer Ligands. Acs Applied Materials & Interfaces. 12: 35845-35855
Saif M, Kwanten WJ, Carr JA, et al. (2020) Non-invasive monitoring of chronic liver disease via near-infrared and shortwave-infrared imaging of endogenous lipofuscin. Nature Biomedical Engineering
Lignos I, Utzat H, Bawendi MG, et al. (2020) Nanocrystal synthesis, μfluidic sample dilution and direct extraction of single emission linewidths in continuous flow. Lab On a Chip
Ginterseder M, Franke D, Perkinson CF, et al. (2020) Scalable Synthesis of InAs Quantum Dots Mediated through Indium Redox Chemistry. Journal of the American Chemical Society
Spokoyny B, Utzat H, Moon H, et al. (2020) Effect of Spectral Diffusion on the Coherence Properties of a Single Quantum Emitter in Hexagonal Boron Nitride. The Journal of Physical Chemistry Letters. 1330-1335
McHugh KJ, Jing L, Severt SY, et al. (2019) Biocompatible near-infrared quantum dots delivered to the skin by microneedle patches record vaccination. Science Translational Medicine. 11
Hansen EC, Liu Y, Utzat H, et al. (2019) Blue Light Emitting Defective Nanocrystals Composed of Earth-Abundant Elements. Angewandte Chemie (International Ed. in English)
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