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particles (solid phase) go to the solvent (liquid

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polikristall kremnij olishning monosilanli texnologiyasi va kremnij strukturalarini yaratishning ionli stimullashgan usullari

particles (solid phase) go to the solvent (liquid
phase) and they are removed as the excess solvent through the membrane pores.
The size of the pores in the membrane was 5 microns. The loss of silicon after
removal of the excess solvent was less than 1%.
1.2. Synthesis of monosilane by using alkoxysilanes

The procedure described in the previous section
-
alkoxysilanes synthesis
technology is the basis for the development of technologies of monosilane
synthesis
,
which is
the next step in
the way
of development silane technology of
polycrystalline silicon.
As a result of studying the processes of monosilane synthesis by catalytic
disproportionation,
also analysis of the literature and patent data identified the
following factors that impede to the effective i
mplementation of the process:
desire to purification of
triethoxysilane
obtained by the direct reaction of
metal silicon and alcohol up to
99.999%
purity
requires
complicated multi-stage
process and
equipment;
catalysts proposed for disproportionation process are or especially dangerous
substances (for example, tert butoxide) or have low activity, requiring
much
time
for the process flowing and reducing its effectiveness
;
monosilane purification is carried out in a multistage process and as
result, it
lead
s to complication of structure of the equipment and increase
s production costs
;
monosilane synthesis process is a batch process.
Studies have primarily
were aimed
to solving these problems. As a result, we
developed a new technology of synthesis of monosilane without these
disadvantages and experimental installation of its implementation
(fig.1.4)
.
Monosilane synthesis by catalytic disproportionation of triethoxysilane is as
follows:
4SiH(OC
2
H
5
)
3

→ SiH
4
+ 3Si(OC
2
H
5
)
4
(1.6)

After separation of ethoxysilanes
in special columns, triethoxysilane is
collected in a special container; from this container triethoxysilane goes to
the
adsorber by
dosing pump. A degree of triethoxysilane cleaning with the real
temperature of the adsorber reaches >99.99% that is suffic
ient for monosilane
synthesis.
Sodium ethylate was used as a catalyst. Sodium ethylate quickly captures
moisture from the air atmosphere. Even the standard samples of sodium ethylate
107

from Sigma
-Aldrich delivered in a special container under inert gas protection
forcedly contact with atmosphere air when the samples are loaded into a reactor
and partially lose their activity. Therefore, the sodium ethylate preparation was
proposed to be performed before its use in a protective environment of
tetraethoxysilane. For a catalyst to be prepared, metallic sodium with purity of at
least 99.9% is slowly dissolved in absolute ethanol alcohol taken in an excess
amount exceeding the stoichiometric one by 5 times. After full dissolution of
sodium, tetraethoxysilane is added to the solution, then ethyl alcohol is distilled off
and the solution of just prepared sodium ethylate in tetraethoxysilane goes to the
reactor for monosilane synthesis. The envoriment of tetraethoxysilane fully
protects the catalyst surface from atmospheric moisture with its initial activity.

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