2.2.2. Manganese solutionManganese

2.2.2. Manganese solution
Manganese stock solution was prepared by dissolving 34.6 mg
of Mn(OAc)2 (0.2 mmol) in 5 mL OAm at 100–120 1C in a nitrogen
environment.
2.2.3. Mixture of zinc and sulfur stock solutions
A mixture of zinc and sulfur stock solutions was prepared
by adding 0.252 g Zn(St)2 (0.4 mM) and 12 mg sulfur powder
(0.4 mM) in 1 mL TOP and 3 mL ODE in a glass vial under an inert
environment at 100–120 1C.
2.3. Synthesis of AIZS nanoparticles
AIZS nanoparticles were synthesized following a reported route
[30]. In a typical synthesis, 8.4 mg Ag(OAc) (0.05 mM), 29 mg In
(OAc)3 (0.1 mM), 18 mg Zn(OAc)2 (0.1 mM), 2 mL DDT, 0.2 mL OAm,
and 5 mL ODE were taken in a three-neck glass flask. At first, the
reaction flask was degassed by purging nitrogen gas for 20 min
under a continuous stirring condition. The temperature was raised
to 100 1C which was maintained for 5 min when a clear solution
was formed. The temperature of the reaction flask was then
increased further (200 1C) when 1.5 mL sulfur-stock solution was
injected into the flask. The solution was annealed for 5 min before
raising the temperature to 230 1C when 1 mL of Zn and S mixed
stock-solution was injected into the flask. The reaction was
allowed to continue for another 30 min to complete the growth
of AIZS nanoparticles. The reaction was stopped by cooling the
flask down to room temperature. The nanoparticles were purified
by adding acetone and ethanol as non-solvents. The nanoparticles
yielded yellow emission under an UV irradiation. To vary the
emission wavelength of the AIZS nanoparticles, we controlled
the content of the silver precursor in the reaction flask. As a
measure of silver content in AIZS, we took the molar ratio between
silver and zinc, M[Ag]:M[Zn] as 0.4, 0.25 and 0.1 to obtain red,
yellow, and green emission, respectively.
2.4. Synthesis of manganese-doped AIZS nanoparticles
Manganese-doped AIZS nanoparticles were synthesized following
the reported procedure with some further modification [30].
Here, the initial precursor solutions were chosen to achieve AIZS
nanoparticles with a large bandgap. To introduce manganese as
dopants, the temperature of the reaction flask was raised to 130,
200, and 240 1C in sequence with the addition of 0.5 mL of
manganese, 2 mL of sulfur, and 1 mL of zinc and sulfur mixed
stock solution into the reaction flask, respectively. At each temperature,
the reaction was allowed to continue for 5 min. The
reaction was finally stopped by cooling the flask. The nanoparticles
were purified by the same protocol used for the undoped ones. For
manganese-doped AIZS nanoparticles, the molar ratio between
silver and zinc, M[Ag]:M[Zn], has been optimized to 0.07.
2.5. Synthesis of ZnO nanoparticles
ZnO nanoparticles were grown from zinc acetate following a
reported route [9]. A solution of 110 mg Zn(OAc)2 2H2O (20 mM)
in 25 mL ethanol was stirred vigorously at 50 1C. TMAH (0.45 mL)
was added drop-wise to initiate the growth of the nanoparticles;
the solution was cooled after 5 min. They were purified by adding
n-hexane in excess followed by centrifuge of the solution to
separate the nanoparticles from the solution.
2.6. Characterization of the nanoparticles
The nanoparticles were characterized with UV–visible optical
absorption spectroscopy, PL emission, X-ray diffraction (XRD) studies,