Specific Process Knowledge/Etch/IBE⁄IBSD Ionfab 300/IBE Au etch: Difference between revisions

From LabAdviser
Bghe (talk | contribs)
No edit summary
Bghe (talk | contribs)
No edit summary
 
(17 intermediate revisions by 2 users not shown)
Line 1: Line 1:
'''Feedback to this page''': '''[mailto:labadviser@danchip.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.danchip.dtu.dk/index.php/Specific_Process_Knowledge/Etch/IBE⁄IBSD_Ionfab_300 click here]'''  
'''Feedback to this page''': '''[mailto:labadviser@nanolab.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.nanolab.dtu.dk/index.php/Specific_Process_Knowledge/Etch/IBE⁄IBSD_Ionfab_300/IBE_Au_etch click here]'''  
<br> {{CC-bghe1}}




Line 15: Line 16:
*50 mm SSP Si wafer
*50 mm SSP Si wafer
*525 µm thick
*525 µm thick
*Supplied by Danchip
*Supplied by Nanolab
|.
|.
|-
|-
Line 26: Line 27:
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
*E-beam resist mask:
*E-beam resist mask:
# 400nm of spin coated ZEP520A e-beam resist
# 400 nm of spin coated ZEP520A e-beam resist
#Patterned by E-beam lithography
#Patterned by E-beam lithography
|.
|.
Line 32: Line 33:
!style="background:silver; color:black" align="left" valign="top"|Features to be etched
!style="background:silver; color:black" align="left" valign="top"|Features to be etched
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
*300nm - 3µm dots and lines + a square of 200µmx200µm
*300 nm - 3µm dots and lines + a square of 200µmx200µm
|.
|.
|-  
|-  
Line 67: Line 68:
!style="background:silver; color:black" align="left" valign="top"|Etch profile
!style="background:silver; color:black" align="left" valign="top"|Etch profile
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
*70-90dg.
*70-90 dg.
|
|
*75dg
*75 dg
|}
|}


Line 77: Line 78:
!Au etch acceptance
!Au etch acceptance
|-
|-
|Neutalizer current [mA]
|Neutralizer current [mA]
|550
|550
|-
|-
Line 111: Line 112:
===Some SEM profile images of the etched Au===
===Some SEM profile images of the etched Au===
{| border="1" cellspacing="1" cellpadding="2"  
{| border="1" cellspacing="1" cellpadding="2"  
!
|
[[image:IBE accpetance S18-AU-ZEP3.jpg|450x450px|thumb|center|s18-Au-ZEP3]]
[[image:IBE accpetance S18-AU-ZEP3.jpg|450x450px|thumb|center|s18-Au-ZEP3]]
!
|
[[image:IBE acceptance S18-AU-ZEP5.jpg|450x450px|thumb|center|s18-Au-ZEP5]]
[[image:IBE acceptance S18-AU-ZEP5.jpg|450x450px|thumb|center|s18-Au-ZEP5]]
|}
|}


==IBE Au etch with Ti mask==
==IBE Au etch with Ti mask==
''by bge@danchip.dtu.dk''
''by bghe@nanolab''


Work has been started to find a good process for etching gold with a Titanium mask with high selektivity.
Work has been started to find a good process for etching gold with a Titanium mask with high selectivity.


{|border="1" cellspacing="1" cellpadding="3" style="text-align:left;"  
{|border="1" cellspacing="1" cellpadding="3" style="text-align:left;"  
Line 138: Line 135:
|-
|-
|-style="background:WhiteSmoke; color:black"
|-style="background:WhiteSmoke; color:black"
!Generel description
!General description
|This recipe has a good selectivity between ZEP520A resist and Ti, which makes it good for pattering the Ti that should be used as masking layer for the Au etch. It can also be used to etch Au if the selectivity to the mask is good enough.
|This recipe has a good selectivity between ZEP520A resist and Ti, which makes it good for patterning the Ti that should be used as masking layer for the Au etch. It can also be used to etch Au if the selectivity to the mask is good enough.
|This recipe has especially good selectivity between Ti and Au which makes it good for gold etching using a thin Ti mask as masking layer. The selectivity to resist is very bad so do not use it with a resist mask.
|This recipe has especially good selectivity between Ti and Au which makes it good for gold etching using a thin Ti mask as masking layer. The selectivity to resist is very bad so do not use it with a resist mask.
|-
|-
Line 147: Line 144:
!Recipe name
!Recipe name
|
|
test Ti acceptance 20111129
Ti acceptance 20111129
|
|
Au_acceptance_with_O2
Au_acceptance_with_O2
Line 189: Line 186:
!Etch rate in resist
!Etch rate in resist
|
|
12.8nm/min (15-12-2011)
12.8 nm/min (15-12-2011)
|
|
72nm/min (13-12-2011)
72 nm/min (13-12-2011)
|-
|-


Line 221: Line 218:
!Selectivity Au/Ti
!Selectivity Au/Ti
|
|
3.9nm/min (15-12-2011)
3.9 (15-12-2011)
|
|
9.9nm/min (13-12-2011)
9.9 (13-12-2011)
|-
|-valign="top"
!SEM images of the etch profile (click to view a larger image)
!SEM images of the etch profile (click to view a larger image)
|
|
Line 231: Line 228:
image:IBE_Au_Ti_nr13_2.jpg|Line profile through Ti and Au.
image:IBE_Au_Ti_nr13_2.jpg|Line profile through Ti and Au.
</gallery>  
</gallery>  
<gallery widths="150px" heights="150px" perrow="3">  
<gallery widths="150px" height ="150px" perrow="3">  
image:IBE_Au_Ti_uden_Ti_nr13_1.jpg|Several line profiles in Au after Ti has been removed.  
image:IBE_Au_Ti_uden_Ti_nr13_1.jpg|Several line profiles in Au after Ti has been removed.  
image:IBE_Au_Ti_uden_Ti_nr13_2.jpg|Line profile in Au after Ti has been removed.
image:IBE_Au_Ti_uden_Ti_nr13_2.jpg|Line profile in Au after Ti has been removed.
Line 237: Line 234:
</gallery>  
</gallery>  
|
|
<gallery caption="Ti mask etched for 6min30sec with recipe ''test Ti acceptance 20111129''. The Au was etched for 7min with recipe ''Au_acceptance_with_O2''. The result was less fenching because a thinner mask was used (Ti instead off resist)" widths="150px" height="150px" perrow="3" >
image:IBE_Au_Ti_w14_20130926_500nmT_BHF5min_2.jpg|Tilted line in Au after Ti has been removed.
image:IBE_Au_Ti_W14_20130926_500nm_1.jpg|Profile in Au after Ti has been removed.
image:IBE_Au_Ti_W14_20130926_3000nmT_5.jpg|Tilted line in Au after Ti has been removed.
</gallery>
|-
|-
|}
|}


<br clear="all" />
<br clear="all" />
==Al2O3 using Ti mask etching with the "Au acceptance recipe"==
''This work was done by Sezer Köse @fotonik April 2019'' <br>
[[File:Sezer Al2O3 and Ti.JPG|600px]]

Latest revision as of 15:25, 6 February 2023

Feedback to this page: click here
This page is written by Berit Herstrøm @ DTU Nanolab (BGHE) if nothing else is stated


Results from the acceptance test in February 2011

Acceptance test for Au etch:

. Acceptance Criteria

Acceptance Results

Substrate information
  • 50 mm SSP Si wafer
  • 525 µm thick
  • Supplied by Nanolab
.
Material to be etched
  • E-beam deposited Au
.
Mask information
  • E-beam resist mask:
  1. 400 nm of spin coated ZEP520A e-beam resist
  2. Patterned by E-beam lithography
.
Features to be etched
  • 300 nm - 3µm dots and lines + a square of 200µmx200µm
.
Etch depth
  • 300nm
  • ~272 nm
Etch rate
  • >80nm/min
  • 54.5nm/min +- 0.6nm/min (one standard deviation)
Etch rate uniformity
  • <+-2%
  • +-(0.2% +-0.2%)
Reproducibility
  • <+-2%
  • +-0.9%
Selectivity (Au etch rate/ZEP etch rate)
  • At least 1:1
  • 1.2:1
Etch profile
  • 70-90 dg.
  • 75 dg

Process parameters for the acceptance test

Parameter Au etch acceptance
Neutralizer current [mA] 550
RF Power [W] 1300
Beam current [mA] 500
Beam voltage [V] 600
Beam accelerator voltage 400
Ar flow to neutralizer [sccm] 5.0
Ar flow to beam [sccm] 10.0
Rotation speed [rpm] 20
Stage angle [degrees] 30



Some SEM profile images of the etched Au

s18-Au-ZEP3
s18-Au-ZEP5

IBE Au etch with Ti mask

by bghe@nanolab

Work has been started to find a good process for etching gold with a Titanium mask with high selectivity.

Ti etch test with Zep520A as mask - To etch the Ti mask Au etch test with high selectivity to Ti
General description This recipe has a good selectivity between ZEP520A resist and Ti, which makes it good for patterning the Ti that should be used as masking layer for the Au etch. It can also be used to etch Au if the selectivity to the mask is good enough. This recipe has especially good selectivity between Ti and Au which makes it good for gold etching using a thin Ti mask as masking layer. The selectivity to resist is very bad so do not use it with a resist mask.
Recipe name

Ti acceptance 20111129

Au_acceptance_with_O2

IBE parameters
  • Rotation speed = 20 rpm
  • Sample angle = 20 degrees
  • Ar flow to neutralizer = 6 sccm
  • Ar flow to beam = 6 sccm
  • Neutralizer current = 300 mA
  • Power = 1200 W
  • Beam current = 250 mA
  • Beam voltage = 800 V
  • Beam accelerator voltage = 300 V
  • Rotation speed = 20 rpm
  • Sample angle = 30 degrees
  • Ar flow to neutralizer = 5 sccm
  • Ar flow to beam = 10 sccm
  • O2 flow to beam = 4sccm
  • Neutralizer current = 550 mA
  • Power = 1300 W
  • Beam current = 500 mA
  • Beam voltage = 600 V
  • Beam accelerator voltage = 400 V
Results
Etch rate in resist

12.8 nm/min (15-12-2011)

72 nm/min (13-12-2011)

Etch rate in Au

32.7nm/min (15-12-2011)

42.6nm/min (13-12-2011)

Etch rate in Ti

8.3nm/min (15-12-2011)

4.3nm/min (13-12-2011)

Selectivity Ti/Zep

0.65 (15-12-2011)

0.06 (13-12-2011)

Selectivity Au/Ti

3.9 (15-12-2011)

9.9 (13-12-2011)

SEM images of the etch profile (click to view a larger image)


Al2O3 using Ti mask etching with the "Au acceptance recipe"

This work was done by Sezer Köse @fotonik April 2019