Christopher B. Murray
Affiliations: | Chemistry | University of Pennsylvania, Philadelphia, PA, United States |
Area:
Nanoscale and Inorganic Materials ChemistryWebsite:
http://webdev.chem.upenn.edu/chem/research/faculty.php?id=41Google:
"Christopher Murray"Bio:
Dr. Murray received his B. Sc. degree in 1989 for Saint Mary’s University in Halifax Nova Scotia before spending a year as a Rotary International Fellow at the University of Auckland New Zealand. He went on to do his graduate studies in chemistry at the Massachusetts Institute of Technology supported by and NSERC Canada 1967 Fellowship. While at MIT, he worked with Professor Moungi Bawendi to developed methods for the synthesis and characterization of semiconductor nanocrystals (quantum dots) and nanocrystal superlattices earning his PhD. degree in 1995. This work on semiconductor nanocrystals was recognized with the awarding of the American Chemical Society's Nobel Laureate Signature Award selecting his thesis as the top graduate level contribution in chemical sciences in the United States and Canada. Dr. Murray was selected as the 2004 Woodward Scholar in Chemistry at Harvard University and the 2004 Debye Institute Professor at the University of Utrecht the Netherlands.
Mean distance: 8.68 | S | N | B | C | P |
Parents
Sign in to add mentorMoungi G. Bawendi | grad student | 1995 | MIT | |
(Synthesis and characterization of II-IV quantum dots and their assembly into 3D quantum dot superlattices) |
Children
Sign in to add traineeZac Iton | research assistant | Penn | |
Don-Hyung Ha | grad student | Penn (E-Tree) | |
Ko Dong-Kyun | grad student | 2011 | Penn |
Weon-kyu Koh | grad student | 2011 | Penn |
Xingchen Ye | grad student | 2006-2012 | Penn |
Hongseok Yun | grad student | 2010-2015 | Penn |
Mingyue Zhang | grad student | 2016-2018 | Penn (E-Tree) |
Jeffrey J. Urban | post-doc | Penn | |
Dmitri V. Talapin | post-doc | 2003-2005 | IBM Thomas J. Watson Research Center |
Sen Zhang | post-doc | 2014-2016 | Penn |
Publications
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Ning Y, Yang S, Yang DB, et al. (2024) Dynamic Nanocrystal Superlattices with Thermally Triggerable Lubricating Ligands. Journal of the American Chemical Society |
Choi YC, Yang S, Murray CB, et al. (2023) Thermally Reconfigurable, 3D Chiral Optical Metamaterials: Building with Colloidal Nanoparticle Assemblies. Acs Nano |
Nguyen HA, Dixon G, Dou FY, et al. (2023) Design Rules for Obtaining Narrow Luminescence from Semiconductors Made in Solution. Chemical Reviews |
Cai YY, Fallah A, Yang S, et al. (2023) Open- and Close-Packed, Shape-engineered Polygonal Nanoparticle Metamolecules with Tailorable Fano Resonances. Advanced Materials (Deerfield Beach, Fla.). e2301323 |
Yang S, LaCour RA, Cai YY, et al. (2023) Self-Assembly of Atomically Aligned Nanoparticle Superlattices from Pt-FeO Heterodimer Nanoparticles. Journal of the American Chemical Society |
Thompson SM, Şahin C, Yang S, et al. (2023) Red Emission from Copper-Vacancy Color Centers in Zinc Sulfide Colloidal Nanocrystals. Acs Nano |
Neuhaus SJ, Marino E, Murray CB, et al. (2023) Frequency Stabilization and Optically Tunable Lasing in Colloidal Quantum Dot Superparticles. Nano Letters. 23: 645-651 |
Marino E, Bharti H, Xu J, et al. (2022) Nanocrystal Superparticles with Whispering-Gallery Modes Tunable through Chemical and Optical Triggers. Nano Letters |
Kim D, Ndaya D, Bosire R, et al. (2022) Dynamic magnetic field alignment and polarized emission of semiconductor nanoplatelets in a liquid crystal polymer. Nature Communications. 13: 2507 |
Keller AW, Marino E, An D, et al. (2022) Sub-5 nm Anisotropic Pattern Transfer via Colloidal Lithography of a Self-Assembled GdF Nanocrystal Monolayer. Nano Letters |