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Investigation of silicon nanoparticle-polystyrene hybridsMadihah Khan1, Alyxandra Thiessen, I Teng Cheong, Jonathan G. C. Veinot1Department of Chemistry, University of Alberta
Key words:Silicon Nanoparticles, Silicon Nanoparticle-Polystyrene Hybrid Silicon hybrid, nanoparticle, chemistry, luminescence, Hydride-Terminated, Silicon Nanoparticles,silicon nanoparticle hybrid
Abstract
Current LED lights are created with quantum dots made of metals like selenium, tellurium, and cadmium which can be toxic. Silicon is used as a non-toxic substance and is the second most abundant element in the earth's crust. When silicon is prepared at a nanometer size, unique luminesce optical properties emerge that can be tuned using sized surface chemistry. Therefore, silicon nanoparticles can be used as an alternative emitter for LED lights. To produce hydride-terminated silicon nanoparticles we must synthesize the particles. Hydrogen silsesquioxane (HSQ) is processed at 1100 °C for one hour causing Si to cluster and form a SiO2 matrix, also known as the composite. The composite is then manually crushed in ethanol. The solution is further ground using glass beads, then filtered to get the composite powder. The final step is the HF etching. The hydride-terminated particles are then functionalized using three different methods to synthesize silicon nanoparticle-polystyrene hybrids, which determine the magnitude of luminosity and the quality of the hybrids. We spin coat each method and results were analyzed. Method 1 uses heat to functionalize hydride-terminated silicon nanoparticles with styrene. This process also causes styrene to attach to styrene to form a polystyrene chain. Method 1 gave a homogeneous mixture which yielded a consistent, bright and homogenous film. In method 2, dodecyl-terminated silicon nanoparticles are mixed with premade polystyrene. While this method gave better control of the amount of silicon nanoparticles inside the polymer hybrid, a homogeneous mixture was not created due to the different structures of polystyrene and dodecyl chains. Method 3 has dodecyl-terminated silicon with in-situ styrene polymerization. It generated a homogeneous mixture. The in-situ polymerization stabilizes the particles, allowing for brighter luminescence. Because of the stability and lower molecular weight, the mixture was easier to dissolve. We concluded that the different methods resulted in different polymer molecular weights and this created distinct properties between the polymer hybrids when spin-coating.
Cite as: Khan, M.,Thiessen, A., Cheong IT., Veinot, J.G.C. 2019. Investigation of Silicon Nanoparticle-Polystyrene Hybrids. Alberta Academic Review, Vol 2 (2) 49-50, WISEST Special Issue (non peer-reviewed), DOI 10.29173/aar60.
ISSN 2561-5327 (print)ISSN 2561-5335 (online)
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Intr
oduc
tion
Met
hods
Res
ults
Met
hod
1
Inve
stig
atio
nof
Sili
con
Nan
opar
ticl
e-P
olys
tyre
neH
ybri
ds
Mad
ihah
Kha
n, A
lyxa
ndra
Thi
esse
n, I
Ten
g C
heon
g, J
onat
han
G. C
. Vei
not
Dep
artm
ent
of C
hem
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nive
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clus
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re 2
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tolu
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ring
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silic
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mea
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f the
met
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igh
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;Vei
not,
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80−8
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Adva
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Func
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to fl
exib
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ater
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Khan et al., 2019