- Email: [email protected]
GaN by trichloride VPE
Update
Neavs
VPE
CaN by trichloride
ture in an NH3/N2 ambi-
Research News Published
in Journal
ent;
of
Crystal Growth (69 (1996) 689-696) workers at the Solid State Electronics
Lab at Stanford
quartz
Heon
reactor
VPE.
ratio 700.
This is not the first time that trichloride has authors claim, this is the first time the growth mechanism has been clarified by thermodynamics
calcu-
decompo-
sults showed decomposition
that the of the am-
erties.
However,
mal surface
is covered by GaN crystallites around a few mi-
for opti-
morphology
a
monia never reached equilibrium and no more than
higher growth temperature (970°C) and a longer
were therfavoured
10% of it decomposed. These conditions favoured
growth time are desirable.
under these growth conditions. In thermodynamic
GaN deed
deposition and inthe resulting films
equilibrium,
phase
were
single
wall furnace
by HCl
XRD,
PL and SEM charac-
gas
of GaN
was preferred over GaN deposition. Experimental re-
in the paper
Below 95O”C, the surface
Polaroid of the HVPE system.
The layers were prepared in an open-flow horizontal tube single zone hot
etching
500 and
by SEM photos over the range of temperatures.
and of
sition of ammonia hydrogen reduction GaC13 to GaCl modynamically
illustrated
and
the thermodynamic lation. Thermal
between
Surface morphology of the resulting films is
as the
experiment - the paper gives full exposition of
gas.
temperature
was varied over the range 930-1050°C with a V/III
on sapphire by trichloride
but,
to the
by carrier
Growth
grown single crystal GaN
used
that
cell and the va-
pour transported
Lee and James S. Harris, Jr have successfully
been
showed
The GaC13 was melted and heated to 100°C in a
Univer-
sity, CA, USA -
XPS
the surface had been nitrided by this process.
crystal
and
terization showed them to have good defect-free prop-
matic.
-
see sche-
Degreased
and
etched substrates were heated to growth tempera-
crons in size. These coalesce
do not
and the authors
note that there are holes all the way to the substrate. PL spectra showed only bandedge emission at RT implying that each crystallite was of good crystal quality while
XRD
revealed
that
each has a different in-plane orientation. At higher temperatures,
however,
the is-
lands coalesced and gave a smoother surface but there were still grooves
and mi-
croholes present. Hall measurements showed that the layers are highly with a background
n-type conduc-
tivity of a few 10’” cmm3,with RTelectron mobility 3-50 cm*/Vs range.
in the
The work was conducted with assistance from
movable electnc furnace
the US ARPA organisation under contract MDA 972-
/
NH3
i2
gas distribution
Schematic of the GaN hydnde vapor phase epitaxy (HVPE) system.
18
Ill-Vs Review l Vol.10 No.2 1997 0961-1290/97/$17.00 01997, Elsevier
Science
Ltd
N2 pannel
I
I
94-1-0003. Contact: Heon Lee, Solid State Electronics Laboratory, Stanford, CA 94305, USA. Fax: + 1 415 723 4659. E-mail: [email protected]
Neavs
VPE
CaN by trichloride
ture in an NH3/N2 ambi-
Research News Published
in Journal
ent;
of
Crystal Growth (69 (1996) 689-696) workers at the Solid State Electronics
Lab at Stanford
quartz
Heon
reactor
VPE.
ratio 700.
This is not the first time that trichloride has authors claim, this is the first time the growth mechanism has been clarified by thermodynamics
calcu-
decompo-
sults showed decomposition
that the of the am-
erties.
However,
mal surface
is covered by GaN crystallites around a few mi-
for opti-
morphology
a
monia never reached equilibrium and no more than
higher growth temperature (970°C) and a longer
were therfavoured
10% of it decomposed. These conditions favoured
growth time are desirable.
under these growth conditions. In thermodynamic
GaN deed
deposition and inthe resulting films
equilibrium,
phase
were
single
wall furnace
by HCl
XRD,
PL and SEM charac-
gas
of GaN
was preferred over GaN deposition. Experimental re-
in the paper
Below 95O”C, the surface
Polaroid of the HVPE system.
The layers were prepared in an open-flow horizontal tube single zone hot
etching
500 and
by SEM photos over the range of temperatures.
and of
sition of ammonia hydrogen reduction GaC13 to GaCl modynamically
illustrated
and
the thermodynamic lation. Thermal
between
Surface morphology of the resulting films is
as the
experiment - the paper gives full exposition of
gas.
temperature
was varied over the range 930-1050°C with a V/III
on sapphire by trichloride
but,
to the
by carrier
Growth
grown single crystal GaN
used
that
cell and the va-
pour transported
Lee and James S. Harris, Jr have successfully
been
showed
The GaC13 was melted and heated to 100°C in a
Univer-
sity, CA, USA -
XPS
the surface had been nitrided by this process.
crystal
and
terization showed them to have good defect-free prop-
matic.
-
see sche-
Degreased
and
etched substrates were heated to growth tempera-
crons in size. These coalesce
do not
and the authors
note that there are holes all the way to the substrate. PL spectra showed only bandedge emission at RT implying that each crystallite was of good crystal quality while
XRD
revealed
that
each has a different in-plane orientation. At higher temperatures,
however,
the is-
lands coalesced and gave a smoother surface but there were still grooves
and mi-
croholes present. Hall measurements showed that the layers are highly with a background
n-type conduc-
tivity of a few 10’” cmm3,with RTelectron mobility 3-50 cm*/Vs range.
in the
The work was conducted with assistance from
movable electnc furnace
the US ARPA organisation under contract MDA 972-
/
NH3
i2
gas distribution
Schematic of the GaN hydnde vapor phase epitaxy (HVPE) system.
18
Ill-Vs Review l Vol.10 No.2 1997 0961-1290/97/$17.00 01997, Elsevier
Science
Ltd
N2 pannel
I
I
94-1-0003. Contact: Heon Lee, Solid State Electronics Laboratory, Stanford, CA 94305, USA. Fax: + 1 415 723 4659. E-mail: [email protected]