List of deposit materials
To access the detailed list of deposited materials, click here
Matériau | Méthode | Équipement | Épaisseur Min (nm) | Épaisseur Max (nm) |
Ag | PVD | SPT320 | 10 | 500 |
Ag | Placage-Électrolytique | Banc Humide placage | 100 | 6000 |
Ag | PVD | Intlvac | 200 | 600 |
Ag | Evap | intlvac e-beam | 20 | 9000 |
Al | Evap | Auto-306 | 5 | 900 |
Al | PVD | SPT320 | 5 | 1000 |
Al | PVD | Auto-500 | ||
Al | Evap | Angstrom Engineering | ||
Al | PVD | Intlvac | 500 | 1000 |
Al | Evap | intlvac e-beam | 100 | 6000 |
Al2O3 | PVD | SPT320 | 20 | 500 |
Al2O3 | PVD | Intlvac | 50 | 100 |
Al2O3 | Evap | intlvac e-beam | 20 | 200 |
Al2O3 | ALD | Picosun | ||
AlN | PVD | SPT320 | 20 | 300 |
AlOx | Evap | Angstrom Engineering | ||
AlSi1% | Evap | Auto-306 | 5 | 500 |
AlSi1%Cu0,5% | PVD | SPT320 | ||
AlSi1%Cu0,5% | Evap | Intlvac ou lesker e-beam | ||
Au | Evap | Auto-306 | 5 | 1000 |
Au | Placage-Électrolytique | Banc Humide placage | 100 | 4000 |
Au | Evap | intlvac e-beam | 5 | 1000 |
Au | Evap | lesker e-beam | 5 | 1000 |
AuGe | Evap | Intlvac ou lesker e-beam | ||
Au-Pd 60%-40% | PVD | K550 | 2 | 10 |
B | Evap | intlvac e-beam | 5 | 50 |
BPSG | PECVD | STS: MESC Multiplex | ||
BSG | PECVD | STS: MESC Multiplex | ||
C60 | SprayCoat | Prism BT Benchtop | ||
Carbon Nanotubes | SprayCoat | Prism BT Benchtop | ||
Co | PVD | Intlvac | 10 | 125 |
Co | Evap | lesker e-beam | 20 | 80 |
CoP | Placage-Électrolytique | Banc Humide placage | 100 | 5000 |
Cr | Evap | Auto-306 | 5 | 350 |
Cr | PVD | Intlvac | 10 | 125 |
Cr | Evap | intlvac e-beam | 2 | 100 |
Cr DC | PVD | SPT320 | 2 | 75 |
Cr RF | PVD | SPT320 | 1 | 500 |
Cr2O3 | PVD | SPT320 | ||
Cu | PVD | Auto-500 | ||
Cu | PVD | SPT320 | 20 | 2000 |
Cu | Placage-electroless | Banc Humide placage | 10 | 100000 |
Cu | Placage-Électrolytique | Banc Humide placage | 100 | 100000 |
Cu | PVD | Intlvac | 100 | 300 |
Cu | Evap | intlvac e-beam | 10 | 3000 |
Fe | Evap | Intlvac ou lesker e-beam | ||
Fe50Co35B15 | PVD | Intlvac | 100 | 300 |
Fe55Ni45 | Evap | Intlvac ou lesker e-beam | ||
FeCoB | Evap | intlvac e-beam | 20 | 80 |
FeCoB | Evap | lesker e-beam | 20 | 80 |
Ge | Evap | Auto-306 | 5 | 100 |
Ge | Evap | intlvac e-beam | 15 | 350 |
GeSG | PECVD | STS: MESC Multiplex | ||
Hf | PVD | SPT320 | ||
HfO2 | PVD | SPT320 | 5 | 100 |
HfO2 | Evap | Intlvac ou lesker e-beam | ||
III-N | CBE | OSEMI inc -V1 | ||
III-V (V= As ou P) | CBE | VG semicon - V90 | ||
In | Evap | intlvac e-beam | 30 | 500 |
In2O3 | PVD | SPT320 | 10 | 100 |
InSnO2 (ITO) | Evap | Intlvac ou lesker e-beam | ||
ITO | PVD | SPT320 | 10 | 1000 |
ItO | PVD | Intlvac | 70 | 320 |
ItO | Evap | Intlvac ou lesker e-beam | ||
Mo | PVD | SPT320 | 20 | 2500 |
Mo | Evap | intlvac e-beam | 20 | 80 |
Nb | PVD | SPT320 | 100 | 3000 |
Nb | Evap | Angstrom Engineering | ||
Nb | PVD | Angstrom Engineering | ||
Nb | Evap | Intlvac ou lesker e-beam | ||
NbN | PVD | Angstrom Engineering | ||
NbOx | Evap | Angstrom Engineering | ||
Ni | Evap | Auto-306 | 5 | 500 |
Ni | PVD | SPT320 | 20 | 1000 |
Ni | Placage-electroless | Banc Humide placage | 10 | 50000 |
Ni | Placage-Électrolytique | Banc Humide placage | 100 | 50000 |
Ni | Evap | intlvac e-beam | 2 | 3500 |
Ni80/Cr20 | Evap | intlvac e-beam | 5 | 350 |
Ni80Fe20 | Evap | Intlvac ou lesker e-beam | ||
Ni93/V7 | PVD | Intlvac | 50 | 300 |
NiCr | PVD | SPT320 | 50 | 200 |
NiCr | PVD | Intlvac | 50 | 300 |
NiFe | Placage-Électrolytique | Banc Humide placage | 100 | 5000 |
Pd | Evap | intlvac e-beam | 20 | 150 |
Permalloy(80/20) | Evap | Auto-306 | 5 | 20 |
Permalloy(80/20) | Evap | intlvac e-beam | 5 | 15 |
Poly-Si /POL3_610 | LPCVD | Tylan - Tube 3 | 100 | 400 |
Poly-Si /POL3_var | LPCVD | Tylan - Tube 3 | 4 | 550 |
PSG | PECVD | STS: MESC Multiplex | ||
Pt | Evap | Auto-306 | 5 | 20 |
Pt | Evap | intlvac e-beam | 1 | 300 |
Pt | Evap | lesker e-beam | 2 | 1000 |
Sac305 | Evap | Intlvac ou lesker e-beam | ||
Si | Evap | Auto-306 | 5 | 100 |
Si | PVD | SPT320 | 20 | 200 |
Si | Evap | intlvac e-beam | 15 | 350 |
Si amorphe /HFaSi250 | PECVD | STS: MESC Multiplex | 105 | 1010 |
Si amorphe /HFASI | PECVD | |||
Si amorphe /AMO3_525 | LPCVD | Tylan - Tube 3 | 30 | 90 |
SiC amorphe /HFSiC | PECVD | STS: MESC Multiplex | ||
SiC amorphe | PECVD | STS: MESC Multiplex | ||
silicon nanowires | SprayCoat | Prism BT Benchtop | ||
SiN /NIT4_785 | LPCVD | Tylan - Tube 4 | 35 | |
SiNH | PECVD | BenchMark - 800-II | ||
SiNx /LFSiN | PECVD | STS: MESC Multiplex | 60 | 940 |
SiNx /LFSiNST | PECVD | STS: MESC Multiplex | ||
SiNx /HFSiN | PECVD | STS: MESC Multiplex | 135 | 800 |
SiNx / HFSiNST | PECVD | STS: MESC Multiplex | ||
SiNx /MFSiN | PECVD | STS: MESC Multiplex | ||
SiNx / MFSiNST | PECVD | STS: MESC Multiplex | ||
SiNx /HFSiN20 | PECVD | STS: MESC Multiplex | 270 | 2150 |
SiNx /SiN Var | PECVD | STS: MESC Multiplex | ||
SiNx | PECVD | BenchMark - 800-II | ||
SiO2 | PVD | SPT320 | 20 | 1000 |
SiO2 | PECVD | BenchMark - 800-II | ||
SiO2 | PVD | Intlvac | 10 | 650 |
SiO2 | Evap | intlvac e-beam | 15 | 350 |
SiO2 | ALD | Picosun | ||
SiO2- Dry / OS1_950 | Fournaise | Tylan - Tube 1 | 18 | 150 |
SiO2- Dry / OS1_1050 | Fournaise | Tylan - Tube 1 | 18 | 150 |
SiO2- Dry /OS2_1050 | Fournaise | Tylan - Tube 2 | 40 | 150 |
SiO2 -Wet / OH1_1050 | Fournaise | Tylan - Tube 1 | 100 | 1000 |
SiO2 -Wet /OH2_1050 | Fournaise | Tylan - Tube 2 | 20 | 2850 |
SiON | PECVD | BenchMark - 800-II | ||
SiOx /LFSiO | PECVD | STS: MESC Multiplex | 95 | 7990 |
SiOx /LFSiOST | PECVD | STS: MESC Multiplex | ||
SiOx /HFSiO | PECVD | STS: MESC Multiplex | 55 | 2090 |
SiOx / HFSiOST | PECVD | STS: MESC Multiplex | ||
Sn | Placage-electroless | Banc Humide placage | 10 | 100000 |
Sn | Placage-Électrolytique | Banc Humide placage | 100 | 100000 |
Sn | Evap | intlvac e-beam | 20 | 500 |
SnAg | Placage-Électrolytique | Banc Humide placage | 100 | 100000 |
Ta | PVD | SPT320 | 15 | 1000 |
Ta | PVD | Intlvac | 400 | 400 |
Ta2O5 | PVD | SPT320 | ||
Ta37Al63 | Evap | Intlvac ou lesker e-beam | ||
Ta5Si3 | Evap | Intlvac ou lesker e-beam | ||
Ti | Evap | Auto-306 | 5 | 750 |
Ti | PVD | SPT320 | 10 | 600 |
Ti | PVD | Auto-500 | ||
Ti | PVD | Angstrom Engineering | ||
Ti | PVD | Intlvac | 50 | 300 |
Ti | Evap | intlvac e-beam | 2 | 300 |
Ti | Evap | lesker e-beam | 2 | 300 |
Ti10W90 | PVD | Intlvac | 60 | 500 |
TiN | PVD | SPT320 | 25 | 400 |
TiN | PVD | Auto-500 | ||
TiN | PVD | Angstrom Engineering | ||
TiN | PVD | Intlvac | 10 | 400 |
TiO2 | PVD | SPT320 | 5 | 200 |
TiO2 | PVD | Intlvac | 100 | 100 |
TiO2 | Evap | Intlvac ou lesker e-beam | ||
TiOx | PVD | Angstrom Engineering | ||
TiW | PVD | SPT320 | 80 | 800 |
TiW | PVD | Intlvac | 10 | 400 |
V | PVD | SPT320 | 25 | 200 |
V | Evap | intlvac e-beam | 20 | 80 |
Va | Evap | Intlvac ou lesker e-beam | ||
W | PVD | SPT320 | 20 | 500 |
W | PVD | Angstrom Engineering | ||
W | PVD | Intlvac | 100 | 700 |
W | Evap | intlvac e-beam | 20 | 80 |
W | Evap | lesker e-beam | 20 | 80 |
WOx | Evap | Angstrom Engineering | ||
WOx | PVD | Angstrom Engineering | ||
Y | Evap | intlvac e-beam | 2 | 100 |
???? | APCVD | Carbolite | ||
Zn | Evap | Intlvac ou lesker e-beam | ||
ZnO | Evap | Intlvac ou lesker e-beam | ||
ZnS | Evap | Intlvac ou lesker e-beam | ||
ZrO2 | PVD | SPT320 |