A solution-liquid-solid approach to colloidal indium nitride nanoparticles from simple alkylamide precursors and investigation of its mechanism / by Yang Chen.

"This thesis reports a solution-based method to synthesize colloidal InN nanomaterials where InBr3 and oleylamide were employed as indium and nitrogen precursors, respectively, and its possible mechanism. Characterizations by X-ray diffraction, Raman spectroscopy, Transmission electron microscopy, X...

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Bibliographic Details
Main Author:	Chen, Yang (Graduate of Michigan State University in chemistry) (Author)
Language:	English
Published:	2017.
Subjects:	Semiconductor nanocrystals > Synthesis. Nanostructured materials > Design and construction. Nanoparticles > Synthesis. Electronic dissertations. Academic theses.
Genre:	Electronic dissertations. Academic theses.
Online Access:	Connect to online resource - MSU authorized users Connect to online resource - All users (Digital Object Identifier Permalink)
Dissertation Note:	Thesis M.S. Michigan State University. Chemistry 2017
Physical Description:	1 online resource (xvii, 159 pages) : illustrations (chiefly color)
Format:	Thesis Electronic eBook

MARC


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245	1	2	\|a A solution-liquid-solid approach to colloidal indium nitride nanoparticles from simple alkylamide precursors and investigation of its mechanism / \|c by Yang Chen.
260			\|c 2017.
300			\|a 1 online resource (xvii, 159 pages) : \|b illustrations (chiefly color)
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502			\|g Thesis \|b M.S. \|c Michigan State University. Chemistry \|d 2017
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520	3		\|a "This thesis reports a solution-based method to synthesize colloidal InN nanomaterials where InBr3 and oleylamide were employed as indium and nitrogen precursors, respectively, and its possible mechanism. Characterizations by X-ray diffraction, Raman spectroscopy, Transmission electron microscopy, X-ray photoelectron spectroscopy and Near infrared-visible absorption support this method as a convincing advancement toward high quality zinc-blende InN nanoparticles. Nuclear magnetic resonance and Gas chromatography were used to qualify the byproducts of this approach. A possible reaction mechanism is also proposed here: (1) NH2 - intermediate is produced as a result of the formation of the secondary imine. (2) NH2 - intermediate reacts with In3+ to form a complex which easily decomposes to produce (InN)n clusters. (3) In(0) nanoparticles produced by reduction of In3+ by H-catalyzed the formation of zinc-blende InN with high crystallinity."--Page ii.
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