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49.3: Synthesis of High Quality CdSe Quantum Dots with Tunable Size
Author(s) -
Wang Chun,
Qin Feng,
Lim Byung Cheon,
Yoon Yong Jun,
Xu Yubo,
Lee Seung Kyu
Publication year - 2012
Publication title -
sid symposium digest of technical papers
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.351
H-Index - 44
eISSN - 2168-0159
pISSN - 0097-966X
DOI - 10.1002/j.2168-0159.2012.tb05869.x
Subject(s) - quantum dot , dispersity , photoluminescence , particle size , materials science , particle size distribution , zinc , molar ratio , thermal decomposition , chemical engineering , nanotechnology , analytical chemistry (journal) , optoelectronics , chemistry , organic chemistry , polymer chemistry , catalysis , engineering , metallurgy
A cheaper, greener approach for the synthesis of highly monodisperse and tunable size CdSe semiconductor quantum dots was developed by thermolysis of a mixed solution of CdO and Se in non‐coordinating solvent 1‐octadecene at 240°C. Systematic vary of the precursor molar ratios allowed the particle size (from 2.5 nm to 5.5 nm) to be tuned and the size distribution (full width at half maximum of photoluminescence spectra from 26 nm to 37 nm) to be controlled. The results revealed that initial Cd:Se molar ratios play an important role in controlling both the size and size distribution of the as‐prepared CdSe quantum dots. Moreover, the obtained CdSe quantum dots are all of zinc blende phase. The possible reason was discussed. The reaction has been conducted in relatively low temperature at 210°C in the absence of expensive organic phosphine ligands, such as trioctylphoshine and trioctylphoshine oxide. This approach has great value for both the laboratory research and industrial application in term of “green chemical principles”.