The 10 rarest metals are extremely scarce in the Earth’s crust and often very valuable.
They include rhodium, platinum, gold, iridium, osmium, palladium, rhenium, tantalum, indium, and ruthenium.
In this article:
What are the 10 rarest metals?
These metals are prized for their corrosion resistance, high melting points, and catalytic or electronic properties.
They are widely used in electronics, aerospace, jewelry, and advanced industrial applications.
Here’s a detailed guide to the 10 rarest metals in the world, including their properties, applications, and why they are so rare. These are mostly non-ferrous and precious metals, many of which are part of the platinum group metals (PGMs).
1. Rhodium (Rh)
- Atomic number: 45
- Density: 12.41 g/cm³
- Melting point: 1964 °C
- Properties: Silvery-white, extremely corrosion-resistant, high reflectivity
- Occurrence: Found in platinum and nickel ores; extremely rare
- Applications: Catalytic converters (automobiles), jewelry plating, chemical catalysts
- Why Rare: Mining production is very low (~30 tons/year worldwide)
2. Ruthenium (Ru)
- Atomic number: 44
- Density: 12.37 g/cm³
- Melting point: 2334 °C
- Properties: Hard, brittle, corrosion-resistant, part of platinum group
- Occurrence: Found in platinum ores
- Applications: Electrical contacts, thick-film resistors, chemical catalysts
- Why Rare: Low crustal abundance (~0.001 ppm) and limited mining
3. Osmium (Os)
- Atomic number: 76
- Density: 22.59 g/cm³ (heaviest metal)
- Melting point: 3045 °C
- Properties: Hard, brittle, bluish-silver, extremely dense
- Occurrence: Found in platinum ores
- Applications: Fountain pen tips, electrical contacts, alloys for hardness
- Why Rare: Rarely occurs in pure form; extremely dense and hard to process
4. Iridium (Ir)
- Atomic number: 77
- Density: 22.56 g/cm³
- Melting point: 2466 °C
- Properties: Corrosion-resistant, very hard, brittle, high melting point
- Occurrence: Platinum ores in South Africa and Russia
- Applications: Spark plugs, crucibles, aerospace alloys, electrodes
- Why Rare: Extremely resistant to corrosion; very low crustal abundance
5. Platinum (Pt)
- Atomic number: 78
- Density: 21.45 g/cm³
- Melting point: 1768 °C
- Properties: Ductile, corrosion-resistant, excellent catalyst
- Occurrence: South Africa, Russia, Canada
- Applications: Catalytic converters, jewelry, chemical industry, electrodes
- Why Rare: Found only in small quantities in ores; high demand increases rarity
6. Gold (Au)
- Atomic number: 79
- Density: 19.32 g/cm³
- Melting point: 1064 °C
- Properties: Highly malleable, corrosion-resistant, excellent electrical conductor
- Occurrence: Alluvial deposits, veins of quartz, placer deposits
- Applications: Jewelry, electronics, investment, dentistry, aerospace
- Why Rare: Limited natural deposits and high global demand
7. Rhenium (Re)
- Atomic number: 75
- Density: 21.02 g/cm³
- Melting point: 3186 °C
- Properties: High melting point, corrosion-resistant, dense, refractory
- Occurrence: Found in molybdenum and copper ores
- Applications: Superalloys for jet engines, thermocouples, catalysts
- Why Rare: Extremely low natural abundance (~1 ppb in crust)
8. Palladium (Pd)
- Atomic number: 46
- Density: 12.02 g/cm³
- Melting point: 1554 °C
- Properties: Soft, ductile, corrosion-resistant, excellent catalyst
- Occurrence: Found in platinum ores, Russia, South Africa, Canada
- Applications: Catalytic converters, jewelry, electronics, hydrogen storage
- Why Rare: Limited production, high industrial demand
9. Indium (In)
- Atomic number: 49
- Density: 7.31 g/cm³
- Melting point: 156.6 °C
- Properties: Soft, malleable, low melting point, excellent conductor
- Occurrence: Found as a by-product of zinc and lead ores
- Applications: Touch screens, LCDs, semiconductors, alloys
- Why Rare: Extremely limited primary sources; mined as by-product
10. Tantalum (Ta)
- Atomic number: 73
- Density: 16.69 g/cm³
- Melting point: 3017 °C
- Properties: Corrosion-resistant, very high melting point, ductile
- Occurrence: Found in tantalum-niobium ores, mainly in Africa and Australia
- Applications: Electronics (capacitors), aerospace alloys, surgical instruments
- Why Rare: Limited supply, expensive to extract and refine
11. Summary Table
| Metal | Symbol | Density (g/cm³) | Melting Point (°C) | Key Uses | Rarity Reason |
|---|---|---|---|---|---|
| Rhodium | Rh | 12.41 | 1964 | Catalytic converters, jewelry | Extremely rare, low mining output |
| Ruthenium | Ru | 12.37 | 2334 | Electrical contacts, catalysts | Low abundance in crust |
| Osmium | Os | 22.59 | 3045 | Hard alloys, fountain pens | Extremely dense, rare |
| Iridium | Ir | 22.56 | 2466 | Electrodes, aerospace | Very corrosion-resistant, scarce |
| Platinum | Pt | 21.45 | 1768 | Catalysts, jewelry | Small quantities in ores |
| Gold | Au | 19.32 | 1064 | Jewelry, electronics | Limited deposits, high demand |
| Rhenium | Re | 21.02 | 3186 | Jet engines, superalloys | Very low natural abundance |
| Palladium | Pd | 12.02 | 1554 | Catalytic converters, electronics | Limited supply, high industrial demand |
| Indium | In | 7.31 | 156.6 | LCDs, touchscreens | By-product of zinc, scarce |
| Tantalum | Ta | 16.69 | 3017 | Electronics, aerospace | Limited deposits, expensive extraction |
Conclusion:
- Most rare metals are non-ferrous and belong to platinum group metals.
- Rhodium is the rarest and most expensive, while metals like gold and platinum are highly valued.
- They are rare due to low crustal abundance, difficult extraction, and high industrial demand.
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