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  • Recommended Crucibles for Evaporation Materials

    • Recommended Crucibles for Evaporation Materials

    Last updated on {{lastDate}}
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    Crucible is important modern laboratory equipment and plays crucial role in production of various materials such as glass, metal, etc. Crucibles made from different materials can withstand different temperatures and resist to corrosion as customer’s request.

    Below is some suggestions to help you find suitable crucible for evaporation materials:

    Evaporation Material Recommended Crucible(s)
    Aluminum (Al) Boron nitride (BN)
    Aluminum fluoride (AlF3) Graphite (C )
    Al/Si (2%) Boron nitride (BN)
    Antimony (Sb) Boron nitride (BN)
    Graphite (C )
    Aluminum oxide (Al2O3)
    Antimony telluride (Sb2Te3) Graphite (C )
    Antimony oxide (Sb2O3) Boron nitride (BN)
    Aluminum oxide (Al2O3)
    Bismuth Aluminum oxide (Al2O3)
    Vitreous carbon
    Bismuth telluride (Bi2Te3) Graphite (C )
    Quartz
    Boron (B) Graphite (C )
    Vitreous carbon
    Cadmium (Cd) Aluminum oxide (Al2O3)
    Quartz
    Cadmium selenide (CdSe) Aluminum oxide (Al2O3)
    Quartz
    Cadmium sulfide (CdS) Aluminum oxide (Al2O3)
    Quartz
    Calcium fluoride (CaF2) Quartz
    Chromium (Cr) Vitreous carbon
    Cobalt (Co) Aluminum oxide (Al2O3)
    Copper (Cu) Aluminum oxide (Al2O3)
    Molybdenum (Mo)
    Tantalum (Ta)
    Copper oxide (CuO) Aluminum oxide (Al2O3)
    Gadolinium (Gd) Aluminum oxide (Al2O3)
    Gallium (Ga) Aluminum oxide (Al2O3)
    Gallium arsenic (GaAs) Graphite (C )
    Gallium nitride (GaN) Aluminum oxide (Al2O3)
    Gallium phosphide (GaP) Quartz
    Germanium (Ge) Quartz
    Aluminum oxide (Al2O3)
    Germanium oxide (GeO2) Quartz
    Aluminum oxide (Al2O3)
    Germanium telluride (GeTe) Quartz
    Aluminum oxide (Al2O3)
    Gold (Au) Aluminum oxide (Al2O3)
    Boron nitride (BN)
    Vitreous carbon
    Indium (In) Graphite (C )
    Aluminum oxide (Al2O3)
    Indium oxide (In2O3) Aluminum oxide (Al2O3)
    Indium phosphide (InP) Graphite (C )
    Indium sulfide (InS) Graphite (C )
    Iron (Fe) Aluminum oxide (Al2O3)
    Iron sulfide (FeS) Aluminum oxide (Al2O3)
    Lanthanum (La) Aluminum oxide (Al2O3)
    Lead (Pb) Aluminum oxide (Al2O3)
    Quartz
    Lead iodide (PbI2) Quartz
    Lead stannnate (PbSnO2) Aluminum oxide (Al2O3)
    Lead selenide (PbSe) Graphite (C )
    Aluminum oxide (Al2O3)
    Lead telluride (PbTe) Graphite (C )
    Aluminum oxide (Al2O3)
    Lithium (Li) Aluminum oxide (Al2O3)
    Lithium fluoride (LiF) Aluminum oxide (Al2O3)
    Magnesium (Mg) Aluminum oxide (Al2O3)
    Vitreous carbon
    Magnesium fluoride (MgF2) Aluminum oxide (Al2O3)
    Magnesium oxide (MgO Graphite (C )
    Aluminum oxide (Al2O3)
    Manganese (Mn) Aluminum oxide (Al2O3)
    Molybdenum oxide (MoO3) Aluminum oxide (Al2O3)
    Boron nitride (BN)
    Ni/Cr Aluminum oxide (Al2O3)
    Vitreous carbon
    Nickel (Ni) Aluminum oxide (Al2O3)
    Vitreous carbon
    Nickel oxide (NiO) Aluminum oxide (Al2O3)
    Palladium (Pd) Aluminum oxide (Al2O3)
    Permalloy (Ni/Fe) Aluminum oxide (Al2O3)
    Vitreous carbon
    Phosphorous (P) Aluminum oxide (Al2O3)
    Platinum (Pt) Graphite (C )
    Rhodium (Rh) Vitreous carbon
    Scandium (Sc) Aluminum oxide (Al2O3)
    Selenium (Se) Aluminum oxide (Al2O3)
    Vitreous carbon
    Silicon (Si) Tantalum (Ta)
    Vitreous carbon
    Silicon dioxide (SiO2) Aluminum oxide (Al2O3)
    Silicon monoxide (SiO) Tantalum (Ta)
    Silver (Ag) Aluminum oxide (Al2O3)
    Molybdenum (Mo)
    Strontium oxide (SrO) Aluminum oxide (Al2O3)
    Tantalum pentoxide (Ta2O5) Vitreous carbon
    Tellurium (Te) Aluminum oxide (Al2O3)
    Quartz
    Terbium (Tb) Aluminum oxide (Al2O3)
    Tin (Sn) Aluminum oxide (Al2O3)
    Tin oxide (SnO2) Aluminum oxide (Al2O3)
    Quartz
    Titanium (Ti) Titanium carbide (TiC)
    Vanadium pentoxide (V2O5) Quartz
    Yttrium (Y) Aluminum oxide (Al2O3)
    Yttrium oxide (Y2O3) Graphite (C )
    Zinc (Zn) Aluminum oxide (Al2O3)
    Quartz
    Zinc selenide (ZnSe) Quartz
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    About the author

    Chin Trento

    Chin Trento holds a bachelor's degree in applied chemistry from the University of Illinois. His educational background gives him a broad base from which to approach many topics. He has been working with writing advanced materials for over four years at Stanford Advanced Materials (SAM). His main purpose in writing these articles is to provide a free, yet quality resource for readers. He welcomes feedback on typos, errors, or differences in opinion that readers come across.

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    A Practical Guide to High-Dielectric-Constant Materials (Dk >25) for RF and Microwave Applications Radiopaque Tantalum Marker Bands Hit Tight ID/OD Tolerances in a Medical Implant Program 1mm OD Alumina Tube Supports Miniaturized Medical Device Assembly CoCrMo Alloy Wire with Tight Diameter Control for Medical Component Manufacturing Gold-Plated Polyimide Film for TEER Impedance Measurements in Microfluidic R&D
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