Specific Process Knowledge/Thermal Process/Oxidation

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Oxidation

At Danchip we have seven furnaces for oxidation: A1, A2, A3, C1, C3, D1 and Noble. Oxidation can take place either by a dry process or a wet process. The film quality of dry oxide is better than for wet oxide with regards to density and dielectric constant, however the oxidation rate is slow for dry oxide. If the film quality for the wet oxide is acceptable then the thickness and the time it takes to grow the oxide often decides if a dry or wet oxidation is chosen.

  • Dry oxidation is used from 5 nm - 200 nm and can be grown in the furnaces: A1, A2, A3, C1, C3.
  • Wet oxidation is used up to 4 µm and can be grown in the furnaces: A1, A3, Noble.
  • Very thick oxide >4 µm can be grown in D1, it is still a wet oxidation.

The standard recipes, quality control limits and results for the Boron Drive-in + Predep furnace (A1) and the Phosphorus Drive-in furnace (A3) can be found here:

Comparison of the seven oxidation furnaces

Boron Drive-in + Pre-dep (A1)

Gate Oxide (A2)

Phosphorous Drive-in (A3)

Anneal Oxide (C1)

Anneal Bond (C3)

APOX (D1)

Noble furnace

Generel description Drive-in of boron deposited in the same furnace or drive-in of ion implanted boron. Can also be used for dry and wet oxidation. Oxidation of gate-oxide and other very clean oxides. Drive-in of phosphorous deposited in the phosphorous pre-dep furnace (A4) or drive-in of ion implanted phosphorous. Can also be used for dry and wet oxidation. Oxidation of 4" and 6" wafers. Oxidation of new wafer with out RCA cleaning. Oxidation of wafers from the LPCVD furnaces and PECVD2. Oxidation of wafers from EVG-NIL, PECVD3 and wafers with aluminum. Oxidation of very thick oxides, thickness higher than 4 µm. Oxidation of almost all materials on silicon wafers.
Oxidation method
  • Dry: O2
  • Wet: Torch
  • Dry: O2
  • Dry: O2
  • Wet: Torch
  • Dry: O2
  • Wet: Steamer
  • Dry: O2
  • Wet: Bobbler
  • Dry: O2
  • Wet: Bubbler
  • Dry: O2
  • Wet: Bubbler
Annealing gas
  • N2
  • Ar
  • N2
  • N2
  • N2
  • N2
  • N2
  • N2
  • Ar
Process temperature
  • 900 oC - 1150 oC
  • 900 oC - 1150 oC
  • 900 oC - 1150 oC
  • 700 oC - 1100 oC
  • 900 oC - 1150 oC
  • 1075 oC
  • 20 oC - 1000 oC
Substrate and Batch size
  • 1-30 50 mm wafers
  • 1-30 100 mm wafers

Including one test wafer

  • 1-30 50 mm wafers
  • 1-30 100 mm wafers

Including one test wafer

  • 1-30 50 mm wafers
  • 1-30 100 mm wafers

Including one test wafer

  • 1-30 50 mm wafers
  • 1-30 100 mm wafers
  • 1-30 150 mm wafers

Including one test wafer

  • 1-30 50 mm wafers
  • 1-30 100 mm wafers

Including one test wafer

  • 1-150 100 mm wafers
  • Small samples on carrier wafer, horizontal
  • 1-25 50 mm wafers
  • 1-25 100 mm wafers, vertical and horizontal
Allowed materials

All wafers have to be RCA cleaned. Except for Boron pre-dep wafer from furnace A1.

All wafers have to be RCA cleaned.

All wafers have to be RCA cleaned. Except for Phosphorous pre-dep wafers from furnace A4.

All processed wafers have to be RCA cleaned. Except for wafers from LPCVD furnace and PECVD1.

All wafers have to be RCA cleaned. Except for wafers from EVG-NIL, PECVD3 and wafer for annealing of aluminum.

Only new wafers

Almost all meterials


Oxidation curves

Generic calculator for wet/dry oxide thickness calculation

The following links give an approximate oxide time/thickness based on a general formula.

Wet Oxidation on <100>

The curves below are based on measurements in our specific furnaces and give more accurate results. We will still recommend to make minimum one test run if the thickness is very important.

Dry Oxidation on <100> and <111> wafer