Piranha Etch
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| About this Process | |
|---|---|
| Process Details | |
| Equipment | Piranha Etch |
| Technology | [[]] |
| Chemicals Used | Sulfuric Acid, Hydrogen Peroxide |
| Date Created | 5/12/15 |
| Date Modified | 4/1/18 |
| Authored By | Katharine Beach |
The term ‘piranha’ refers to a hot solution of sulfuric acid and hydrogen peroxide (a.k.a SPM). Piranha strips photoresist and other organics by oxidizing them, and removes metals by forming complexes that stay in the solution.
Contents
Hazards
Both chemicals (Sulfuric Acid and Hydrogen Peroxide) are highly reactive and oxidizing. The mixture is corrosive and extremely exothermic. The solution is nicknamed 'piranha' because it aggressively attacks any organic material. This makes it effective at cleaning organic contamination off wafers; but, it also means that it will eat through other organic materials, such as your flesh.
Piranha is also a serious explosion hazard. Since it evolves oxygen gas as it reacts, it should never be placed within a sealed container. Pressure can quickly build up in a sealed container and cause the container to explode. In addition, if it is given too much organic material to react with (e.g., if piranha is accidentally mixed with a solvent, or if used to strip a significant quantity of photoresist off a wafer rather than used merely to remove trace residues), it can combust or explode.
Piranha will etch most metals, and in doing so, will evolve flammable hydrogen gas; this, combined with the oxygen and heat produced by the reaction, all contribute to the possibility of fire or explosion. Therefore, it should not be used with metal tweezers or to etch metals. In general, piranha should not be used to clean wafers with metal on them (unless the metal is one which is not attacked by piranha). The hydrogen peroxide used should have a concentration in water no greater than 30% (The hydrogen peroxide stocked in the LNF is 30%); if more highly concentrated hydrogen peroxide is used (>50%), explosion can occur. For additional references on the hazards and safe handling of piranha, see the Safety Data Sheets (SDS) or the document provided by the Department of Environment, Health, & Safety (EHS).
Chemicals
Sulfuric Acid (H2SO4): CAS # 7664-93-9
Hydrogen Peroxide (H2O2): CAS # 7722-84-1
- Piranha
Standard Operating Procedure
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Locations
- Acid Bench 02 CMOS Clean, 4" and 6", Silicon
- Acid Bench 12 Metals allowed, 4" and 6", Silicon and Glass
- Acid Bench 72 Pieces to 6" wafers, any material
- Acid Bench 73 Pieces to 6" wafers, any material
- Acid Bench 82 Pieces
- Acid Bench 92 Pieces to 4" wafers, any material
Process Information
When the two chemicals are mixed a very exothermic reaction will occur. It will heat to 120-150°C almost instantly. This is hot enough to soften many plastics, including the deck of the benches.
Place your beaker on a hot pad usually stored in the bin on the deck if available. This is to protect the bench. Piranha can get very hot and can attack plastics so failure to follow these directions can lead to melting of your container or bench top. Choose the location of your beaker very carefully because once you have mixed the Piranha chemicals, the beaker will become very hot, and it should not be moved.
Etch Rate
Will clean organic residue off of wafer in approximately 10-20 min
Limitations
Will attack any polymers on the surface
