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SU-8 3000 series – Microresist
i-line imaging; High aspect ratio with vertical sewalls; Up to 100 µm film thickness in a single coat; Improved substrate adhesion; Reduced coating stress …
Source: www.microresist.de
Date Published: 1/27/2021
View: 5462
Recipe using SU8-3050 for 50 µm thickness – cloudfront.net
Take the SU8-3050 bottle out of the frge and cool it down for 30 minutes before … 3) Spin at 3000 rpm for 30 seconds with acceleration of 300 rpm/second.
Source: d1rkab7tlqy5f1.cloudfront.net
Date Published: 12/22/2022
View: 2244
Mirochem SU-8 photoresist 3000 series – WenHao
It also has good mechanical properties, chemical corrosion resistance, and thermal stability. SU-8 crosslinked by UV radiation is a chemically amplified …
Source: www.whmicro.com
Date Published: 10/23/2022
View: 1136
SU 8 3000 Series – IndiaMART
SU-8 3000 has been formulated for improved adhesion and reduced coating stress. It is being used where high bond strength and improved flexibility for …
Source: www.indiamart.com
Date Published: 4/7/2022
View: 4933
Adhesion between SU 8 3000 series on metals?
Datasheet from MicroChem says the SU8 3000 series has improved adhesion to metals and we dont need adhesion promoter. But I have no experience with this …
Source: www.researchgate.net
Date Published: 9/14/2022
View: 4110
SU-8 3000 Data Sheet ver 4.2 – PDF4PRO
SU-8 3000 is an improved formulation of SU-8 and SU-8 2000, which has been wely used by MEMS producers for many years. SU-8 3000 has been formulated for …
Source: pdf4pro.com
Date Published: 2/14/2022
View: 1557
SU-8 3000 Series Resists MicroChem | Utah Nanofab
SU-8 3000 Series Resists. See Table 1 – Section 9. SUPPLIER: TELEPHONE: FAX: CHEMTREC USA. EMERGENCY #:. CHEMTREC INTL. EMERGENCY #:. MSDS DATE:.
Source: www.nanofab.utah.edu
Date Published: 1/8/2021
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주제와 관련된 이미지 su 8 3000
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주제에 대한 기사 평가 su 8 3000
- Author: Tuyensinh247 – Học trực tuyến
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- Date Published: 2018. 8. 31.
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Mirochem SU-8 photoresist 3000 series
Brief introduction of Microchem SU 8 photoresist series
The new chemically amplified negative SU-8 photoresist is a negative, epoxy, near-ultraviolet photoresist, which overcomes the shortage of depth-to-width ratio caused by UV photoresist. It is very suitable for fabricating high aspect ratio microstructures. SU-8 photoresist has a low light absorption in the near-ultraviolet (365nm-400nm) range, and the exposure of the photoresist layer is uniform. The thick film with vertical sidewall and high aspect ratio can be obtained. It also has good mechanical properties, chemical corrosion resistance, and thermal stability. SU-8 crosslinked by UV radiation is a chemically amplified negative adhesive, forming steps and other complex structures. SU-8 adhesive is non-conductive and can be used directly as an insulator in electroplating. Due to its many advantages, SU-8 is gradually being used in MEMS, chip packaging, and micro-machining. At present, the direct use of SU-8 photoresists to prepare high aspect ratio microstructures and micro-parts has become a new technology in micro-machining.
Cleaning process of Microchem SU 8 photoresist before photolithography
If you want to obtain a better photolithography effect, the substrate needs to be cleaned before photoresist coating. The commonly used cleaning method uses concentrated sulfuric acid and hydrogen peroxide mixed solution immersion, followed by cleaning with deionized water and blowing dry with nitrogen. In addition, it can be cleaned by Reactive-ion etching or plasma surface cleaner.
Microchem SU 8 photoresist lithography process
The SU-8 photoresist component is spin-coated on the substrate with a thickness of several to several hundred microns. The coated wafers are dried before being cooled to room temperature. In the drying process, the preferential selection of uniform heating and precise temperature control of the heating plate; can not use the air blast drying box to prevent the photoresist surface priority curing to prevent the evaporation of the inner photoresist solvent. After cooling, the negative mask is exposed to the coated wafer, and the UV radiation dose at the mercury lamp is 10-250 MJ/cm? Under the right conditions. After exposure, choose the appropriate baking temperature and time. The wafer is developed by immersion in the developer and then blown dry with nitrogen.
Advantages of SU-8 photoresist
The SU-8 photoresist has a low light absorption in the near-ultraviolet (365nm-400nm) region, and the exposure of the photoresist layer is uniform. The thick film pattern with vertical sidewall and high aspect ratio can be obtained
SU-8 photoresist has good mechanical properties, chemical corrosion resistance, and thermal stability
SU-8 was crosslinked after being exposed to UV radiation. It is a chemically amplified negative gel, which can form a complex structure such as step
4, SU-8 glue does not conduct electricity when electroplating can be used directly as an insulator.
Due to its many advantages, SU-8 is gradually being used in MEMS, chip packaging, and micro-machining fields. At present, the direct use of SU8 photoresist to prepare high aspect ratio microstructures and micro-parts has become a new technology in micro-machining. In microfluidic chip processing, SU-8 has mainly used for rapid molding of PDMS microfluidic chips.
Type and parameters of photoresist
SU 8 3000 Series
SU-8 3000 has been formulated for improved adhesion and reduced coating stress. It is being used where high bond strength and improved flexibility for microstructure fabrication is desired. As a result, adhesion to the substrate is greatly improved. Material uses:
– Waveguides
– Microfluidics
– StampsMaterial attributes:
– Improved adhesion
– Reduced coating stress
– Vertical sidewalls
– Greater than 100 μm film thickness in a single coat
SU-8 3000 Data Sheet ver 4.2 / su-8-3000-data-sheet-ver-4-2.pdf / PDF4PRO
1 SU-8 3000 Permanent Epoxy Negative PhotoresistSU-8 3000is a high contrast, epoxy based photoresist designed for micromachining and other microelectronic applications, where a thick, chemically and thermally stable image is desired. SU-8 3000 is an improved formulation of SU-8 and SU-8 2000, which has been widely used by MEMS producers for many years. SU-8 3000 has been formulated for improved adhesion and reduced coating stress. The viscosity range of SU-8 3000 allows for film thicknesses of 4 to 120 m in a single coat. SU-8 3000 has excellent imaging characteristics and is capable of producing very high, over 5:1 aspect ratio structures.
2 SU-8 3000 has very high optical transmission above 360 nm, which makes it ideally suited for imaging near vertical sidewalls in very thick films. SU-8 3000 is best suited for permanent applications where it is imaged, cured and left on the GuidelinesSU-8 3000 is most commonly exposed with conventional UV (350-400 nm) radiation, although i-line (365 nm) is recommended. It may also be exposed with e-beam or x-ray radiation. Upon exposure, cross-linking proceeds in two steps (1) formation of a strong acid during the exposure step, followed by (2) acid-catalyzed, thermally driven epoxy cross-linking during the post exposure bake (PEB) step.
3 A normal process is: spin coat, soft bake, expose, PEB, followed by develop. Substrate PreparationTo obtain maximum process reliability, substrates should be clean and dry prior to applying SU-8 3000 resist. For best results, substrates should be cleaned with a piranha wet etch (using H2SO4& H2O2) followed by a de-ionized water rinse. Substrates may also be cleaned using reactive ion etching (RIE) or any barrel asher supplied with O2. Adhesion promoters are typically not required. For applications that require electroplating it is recommended to pre-treat the substrate with MCC Primer 80/20 (HMDS).
4 Features Improved adhesion Reduced coating stress High aspect ratio imaging Vertical sidewalls Greater than 100 m film thickness in a single coat Excellent dry etch resistanceApplicationsContact aligner exposure10 um features, 50 um SU-8 3000 3000 resists are available in five standard viscosities, shown in Table 1. Figure 1 provides the information required to select the appropriate SU-8 3000 resist and spin conditions, to achieve the desired film Program(1) Dispense 1ml of resist for each inch(25mm) of substrate diameter(2) Spin at 500 rpm for 5-10 sec with acceleration of 100 rpm/second(3) Spin at 3000 rpm for 30 sec with acceleration of 300 rpm/ 1.
5 Spin speed vs. Thickness for SU-8 3000 resists (21oC US & EU)0102030405060708090100110010002000300 040005000 Spin Speed (rpm)Film Thickness ( m)SU-8 3050SU-8 3035SU-8 3025SU-8 3010SU-8 BakeA level hotplate with good thermal control and uniformity is recommended for use during the Soft Bake step of the process. Convection ovens are not recommended. During convection oven baking, a skin may form on the resist. This skin can inhibit theevolution of solvent, resulting in incomplete drying of the film and /or extended bake times. Table 2 shows the recommended Soft Bake temperatures and times for the various SU-8 3000 products at selected film : To optimize the baking times/conditions, remove the wafer from the hotplate after the prescribed time and allow to cool to room temperature.
6 Then return the wafer to the hotplate. If the film wrinkles , leave the wafer on the hotplate for a few more minutes. Repeat the cool-down and heat-up cycle until wrinkles are no longer seen in the film after placing the wafer on the dispersion curve and Cauchy coefficients are shown in Figure 3. This information is useful for film thickness measurements based on ellipsomety and other optical obtain vertical sidewalls in the SU-8 3000 resist, we recommend the use of a long pass filter to eliminate UV radiation below 350 nm. With the recommended filter (PL-360-LP) from Omega Optical ( ) or Asahi Technoglassfilters V-42 plus UV-D35 ( ), an increase in exposure time of approximately 40% is required to reach the optimum exposure : Optimal exposure will produce a visible latent image within 5-15 seconds after being placed on the PEB hotplate and not before.
7 An exposure matrix experiment should be performed to optimize the exposure doseFigure 3. Cauchy CoefficientsTable 2. Soft Bake TimesTable 3. Exposure Dosew-1_genosc Optical ConstantsWavelength (nm)300600900120015001800 Index of refraction ‘n’Extinction Coefficient ‘k’ Constants Cauchy Table 1. SU-8 3000 ViscositySU-8 3000 % SolidsViscosity (cSt)Density (g/ml) 2. Spin speed vs. Thickness for SU-8 3000 resists (23oC Japan & Asia)01020304050607080901001101200100020 00300040005000 Spin Speed (rpm)Film Thickness ( m)SU-8 3050SU-8 3035SU-8 3025SU-8 3010SU-8 3005 Table 4. Exposure Doses for SubstratesRELATIVE Tin – – – 2 XNickel – – – – 2 XTHICKNESSEXPOSURE ENERGY micronsmJ/cm24 – 10100 – 2008 – 15125 – 20020 – 50150 – 25030 – 80150 – 25040 – 100150 – 250 THICKNESSSOFT BAKE TIME micronsminutes @ 95oC4 – 102 – 38 – 155 – 1020 – 5010 – 1530 – 8010 – 3040 – 10015 – 45 Post Exposure Bake (PEB)Should take place directly after exposure.
8 Table 5 shows the recommended times and temperaturesNote: After 1 minute of PEB at 95oC, an image of the mask should be visible in the SU-8 3000 photoresist coating. No visible latent image during or after PEB means that there was insufficient exposure, temperature or 3000 resist has been designed for use in immersion, spray or spray-puddle processes with MicroChem s SU-8 developer. Other solvent based developers such as ethyl lactate and diacetonealcohol may also be used. Strong agitation is also recommended for high aspect ratio and/or thick film structures. The recommendeddevelop times for immersion processes are given in Table 6.
9 These develop times are approximate, since actual dissolution rates can vary widely as a function of agitationNote: The use of an ultrasonic or megasonic bath is helpful for developing out photoresist vias or and DryWhen using SU-8 developer, spray/wash the developed image with fresh developer solution for approximately 10 seconds, followed by a second spray/wash with Isopropyl Alcohol (IPA) for another 10 seconds. Air dry with filtered, pressurized air or : A white film produced during IPA rinse indicates that the substrate has been under developed. Simply immerse or spray thesubstrate with SU-8 developer to remove the film and complete the development process.
10 Repeat the rinse Properties(Approximate values)Optical PropertiesHard Bake (cure)SU-8 3000 has good mechanical properties. However for applications where the imaged resist is to be left as part of the final device, the resist may be ramp/step hard baked between 150-200 C on a hot plate or in a convection oven to further cross link the material. Bake times vary based on type of bake process and film 6. Development Times for SU-8 DeveloperAdhesion Strength (mPa) Silicon/Glass/Glass & HMDS69/35-59 Glass Transition Temperature (Tg C), tan peak200 Thermal Stability ( C @ 5% wt. loss)300 Thermal Conductivity (w/mK) of Thermal Expansion (CTE ppm)52 Tensile Strength (Mpa)73 Elongation at break ( b %) s Modulus (Gpa) Constant @ Resistivity ( cm) Absorption (% 85oC/85 RH) 4.
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