C
Christopher B. Murray
Researcher at University of Pennsylvania
Publications - 371
Citations - 59526
Christopher B. Murray is an academic researcher from University of Pennsylvania. The author has contributed to research in topics: Nanocrystal & Nanoparticle. The author has an hindex of 88, co-authored 336 publications receiving 54410 citations. Previous affiliations of Christopher B. Murray include Universal Display Corporation & Lawrence Berkeley National Laboratory.
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Synthesis, Shape Control, and Methanol Electro-oxidation Properties of Pt–Zn Alloy and Pt3Zn Intermetallic Nanocrystals
TL;DR: With activities comparable to the commercial Pt catalyst, enhanced poisoning tolerance and lower cost, Pt-Zn and Pt(3)Zn NCs are a promising new family of catalysts for direct methanol fuel cells.
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Compositionally controlled FePt nanoparticle materials
TL;DR: In this paper, high temperature solution phase decomposition of Fe(CO)/sub 5/ and reduction of Pt(acac)/sub 2/ in the presence of stabilizers, oleic acid and oleyl amine, are employed to produce 4 nm diameter FePt nanoparticles.
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Fluorescence-line narrowing in CdSe quantum dots: Surface localization of the photogenerated exciton
TL;DR: In this paper, the electronic properties of shallow band-edge surface traps in nanometer-size CdSe quantum dots are probed using fluorescence-line-narrowing spectroscopy.
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Exploiting the colloidal nanocrystal library to construct electronic devices.
Ji Hyuk Choi,Ji Hyuk Choi,Han Wang,Soong Ju Oh,Soong Ju Oh,Taejong Paik,Pil Sung,Pil Sung,Jinwoo Sung,Xingchen Ye,Tianshuo Zhao,Benjamin T. Diroll,Christopher B. Murray,Cherie R. Kagan +13 more
TL;DR: This work designs and exploits colloidal nanocrystal diversity and design the materials, interfaces, and processes to construct all-nanocrystal electronic devices using solution-based processes.
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Stoichiometric control of lead chalcogenide nanocrystal solids to enhance their electronic and optoelectronic device performance.
Soong Ju Oh,Nathaniel E. Berry,Ji Hyuk Choi,E. Ashley Gaulding,Taejong Paik,Sung Hoon Hong,Christopher B. Murray,Cherie R. Kagan +7 more
TL;DR: Hall-effect and capacitance-voltage measurements show that the carrier type, concentration, and Fermi level in nanocrystal solids may be precisely controlled through their stoichiometry, which engineer the characteristics of electronic and optoelectronic devices.