data sheet - signupmonkey.ece.ucsb.edu€¦ · data sheet az® p4000 thick film photoresist 20+ µm...
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D A T A S H E E T
AZ® P4000Thick Film Photoresist
20+ µm Process for AZ® P4620 Photoresist: Single coat for track and hotplateSingle coating using either SVG track or Flexifab
Step Event Time Speed Accel(sec) (rpm) (krpm/sec)
1 4 500 202 Dispense resist 5 0 03 Spread 3 - 5 300 204 “Spike” 0.2 2000 505 EBR 20 400 206 EBR dry 10 400 20
Bake: hotplateStep Time Temp. Gap Height
(sec) (°C) (µm)1 60 120 0.050 (approx. 70°C)2 60 120 0.025 (approx. 100°C)3 120 - 180 120 Full contact
Recommended Process
Description
AZ® P4000 series photoresists provideunmatched capabilities in demandingapplications requiring film thicknessesranging from 3 to over 60 µm. Theseproduction proven photoresists set thestandard in MR and inductive thin filmcoil plating, wafer bumping processes,ceramic packaging, air bearing/sliderapplications and permanent insulationlayers. The photoresists can be fullycross-linked to act as a dielectric andremain part of a permanent devicestructure.
The rapid evolution in the packaging mar-ket along with higher resist performancerequirements have led to the develop-ment of a version of this resist thatmeets demanding ultra-thick film needsof 60 µm with single coat processes.Spin, spray, and roller-coat versions ofthe AZ P4000 series photoresists areavailable.
Features Benefits
■ AZ® P4000 Thick Film Photoresist Page 1 of 6
Steep wall profiles and excellentadhesion on a wide variety ofsubstrates
Sensitive to g-, h-, and i-linewavelengths
Available in viscosities that allowcoating thicknesses greater than60 µm
Excellent ion-milling properties
Exceptionally stable cured films
Cast in PGMEA safer solventwith no co-solvent
• Ideal for up-plating• No underplating even in thick
films
• Sensitive to all popularexposure tools
• Single resist series that canbe used in a wide range ofapplications
• High yields• No cracking, peeling,
or bubbling
• Provides an excellent, easyto use permanent insulatorlayer for critical high reliabilityapplications in thin filmrecording heads
• Toxicity hazard isextremely low
• Provides excellent coatingproperties
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24 µm Process for AZ® P4620 Photoresist: Double coat for track and hotplateFirst Coat: Target 10 µm Film Thickness
Step Event Time Speed Accel(sec) (rpm) (krpm/sec)
1 SpinLS 2 300 502 Dispense resist 10 03 SpinLS 3 300 504 SpinHS 60 2500 505 EBR 10 500 506 SpinHS 10 1000 50
*Estimated rpm: change for thickness requirements
First SoftbakeStep Event Time Temp. Gap Height
(sec) (°C) (µm)1 Gap* 10 110 0.0012 Bake 80 110 Full contact
*Gap used to imitate slow heating of substrate.Use 85 sec bake if gap function not available.
Second Coat: Target 24.0 µm Total Film ThicknessStep Event Time Speed Accel
(sec) (rpm) (krpm/sec)1 SpinLS 2 300 502 Dispense resist 10 03 SpinLS 3 300 504 SpinHS 60 1600 505 EBR 10 500 506 SpinHS 10 1000 50
*Estimated rpm: change for thickness requirements
Second Softbake: 110°CStep Event Time Temp. Gap Height
(sec) (°C) (µm)1 Gap* 10 110 0.0012 Bake 80 110 Full contact
*Gap used to imitate slow heating of substrate.Use 165 sec bake if gap function not available.
Develop: Constant Spray at 27°CStep Event Time Temp. Accel
(sec) (°C) (krpm/sec)1 Spray* 260 250 502 Rinse 20 300 503 Dry 15 4000 50
*140 ml of developer per min
Recommended Process
AZ® P4000Thick Film Photoresist
■ AZ® P4000 Thick Film Photoresist Page 2 of 6
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Modeling Parameters (AZ® P4000 Photoresist at 435 nm)
Refractive Index
Unbleached Bleached
n 1.6963 n 1.6796
k 0.0150 k 0.0100
Cauchy Coefficients A B C
Unbleached 1.6154 1.0340 x 10-2 µm2 8.16 x 10-4 µm4
Bleached 1.6207 2.9136 x 10-3 µm2 2.78 x 10-3 µm4
Dill Parameters A B C
0.3697 µm-1 0.0243 µm-1 0.0203 cm2/mJ
■ AZ® P4000 Thick Film Photoresist Page 3 of 6
AZ® P4000Thick Film Photoresist
Performance of AZ® P4620 Photoresist
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Performance (continued)
Page 4 of 6 AZ® P4000 Thick Film Photoresist ■
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24 µm film thickness, double coat/bake at 110°C, on Ultratech Stepper® model 1500, AZ® 400K 1:4Developer, 260 sec spray
5.0 µm6.0 µm6.5 µm7.0 µm9.0 µm 8.0 µm
Linearity (1600 mJ/cm2)
Performance (continued)
Page 5 of 6 AZ® P4000 Thick Film Photoresist ■
-2 µm -3 µm
-4 µm
-1 µm0 µm1 µm
-6 µm -5 µm-7 µm-8 µm-9 µm
Focus Latitude (9 µm lines and spaces, 1600 mJ/cm2)
1550 mJ/cm21500 mJ/cm2 1600 mJ/cm2 1650 mJ/cm2 1700 mJ/cm2 1750 mJ/cm2
Exposure Latitude (9 µm lines and spaces)
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Companion ProductsAdhesion PromoterAZ® Adhesion Promoter is highly purified HMDS recommended to promote adhesion of photoresist tosemiconductor wafers.
Edge Bead RemoversAZ® EBR 70/30 edge bead remover and AZ EBR solvent are recommended for AZ® P4000 photoresist for bothfront- and back-side edge bead removal.
DevelopersAZ® 400K series and AZ 421K developers are recommended for thick films of AZ P4000 photoresists. Thesedevelopers may be used for both spray and immersion processes. AZ 400K is a buffered potassium-baseddeveloper that provides the process latitude associated with inorganic developers while minimizing risk assoc-iated with mobile ion contamination. AZ 421K developer is unbuffered. An alternative sodium-based developer, AZDeveloper, has a very low etch rate on aluminum and can also be used with AZ P4000 photoresist. Developerbulletins with additional processing details are available.
StrippersAZ® 400T and 300T strippers are recommended for removal of AZ P4000 photoresist. AZ 400K developerconcentrate can also be used for stripping when a corrosion resistant substrate is used. Using this developerfor stripping provides the added benefit of an all-aqueous (organic-solvent-free) system. This results in aquantitative reduction of organic residues as evidenced by the hydrophilic surface obtained after resist removal.Gold surfaces are an exception: they are not hydrophilic after stripping because they are hydrophobic by nature.
Solvent SafetyAZ P4000 photoresist is formulated with propylene glycol monomethyl ether acetate (PGMEA) solvent, which ispatented for use in photoresists by Clariant AG (U.S. patent number 4,550,069).
Equipment CompatibilityAZ P4000 photoresist is compatible with all commercially available wafer and photomask processing equipment.Recommended materials of construction include stainless steel, glass, ceramic, PTFE, polypropylene, and highdensity polyethylene.
StorageKeep in sealed original containers away from oxidants, sparks, and open flames. Refrigerate until use, and bringto ambient temperature prior to use. Protect from light and heat. Empty container may contain harmful residueand vapors.
Handling Precautions/First AidRefer to the current Material Safety Data Sheet (MSDS) for detailed information prior to handling.
AZ® P4000Thick Film Photoresist
Page 6 of 6 AZ® P4000 Thick Film Photoresist ■
U.S. Headquarters Office:
Clariant CorporationAZ Electronic Materials70 Meister AvenueP.O. Box 3700Somerville, NJ 08876(908) 429-3500(908) 429-3631 faxwww.azresist.com
Regional Sales and Service Offices:
United States and Canada:
Clariant CorporationAZ Electronic MaterialsSomerville, NJ (800) 259-9160San Jose, CA (408) 501-3940Dallas, TX (214) 570-4320
Europe and Far East:
Clariant GmbHWiesbaden 49 (611) 962-6867
Clariant (Japan) K.K.Tokyo 81-3-5977-7937
Clariant Industries Limited (Korea)Seoul 82-2-510-8000
The information contained herein is, to the best of our knowledge, true and accurate, but all recommendations or suggestions are made without guarantee because theconditions of use are beyond our control. There is no implied warranty of merchantability or fitness for purpose of the product or products described here. In submitting thisinformation, no liability is assumed or license or other rights expressed or implied given with respect to any existing or pending patent, patent application, or trademarks.The observance of all regulations and patents is the responsibility of the user. Clariant and AZ are registered trademarks of Clariant AG. © 2002 Clariant Corporation. 08/02
Clariant (Taiwan) Co., Ltd.Taipei 886-2-2514-3177or 886-2-2514-3113