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Rare-earth element

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Rare-earth element

The rare-earth elements (REE), also called rare-earth metals, or rare earths, are a set of 17 nearly indistinguishable lustrous silvery-white soft heavy metals. The 15 lanthanides (or lanthanoids), along with scandium and yttrium, are usually included as rare earths. Compounds containing rare-earths have diverse applications in electrical and electronic components, lasers, glass, magnetic materials, and industrial processes. Rare-earths are to be distinguished from critical minerals, which are materials of strategic or economic importance that are defined differently by different countries, and rare-earth minerals, which are minerals that contain one or more rare-earth elements as major metal constituents. The term "rare-earth" is a misnomer, because they are not actually scarce, but because they are found only in compounds, not as pure metals, and are difficult to isolate and purify. They are relatively plentiful in the entire Earth's crust (cerium being the 25th-most-abundant element at 68 parts per million, more abundant than copper), but in practice they are spread thinly as trace impurities, so to obtain rare earths at usable purity requires processing enormous amounts of raw ore at great expense. Scandium and yttrium are considered rare-earth elements because they tend to occur in the same ore deposits as the lanthanides and exhibit similar chemical properties, but have different electrical and magnetic properties. All isotopes of promethium are radioactive, and it does not occur naturally in the earth's crust, except for a trace amount generated by spontaneous fission of uranium-238. They are often found in minerals with thorium, and less commonly uranium. Because of their geochemical properties, rare-earth elements are typically dispersed and not often found concentrated in rare-earth minerals. Consequently, economically exploitable ore deposits are sparse. The first rare-earth mineral discovered (1787) was gadolinite, a black mineral composed of cerium, yttrium, iron, silicon, and other elements. This mineral was extracted from a mine in the village of Ytterby in Sweden. Four of the rare-earth elements bear names derived from this single location. Commercial production in modern times describes the reserves of the rare-earth elements in terms of "rare-earth oxides" (REOs) containing mixtures of various rare earth elements in oxide compounds. The uses, applications, and demand for rare-earth elements have expanded over the years. In 2015, most REEs were being used for catalysts and magnets. The global move towards renewable energy technologies, such as electric vehicles (EVs) and wind turbines, along with advanced electronics, defence applications, and consumer electronics such as smartphones, has caused increased demand for REEs. China dominates the rest of the world in terms of REE reserves and production; in 2019, it supplied around 90% of the global demand for the 17 rare-earth powders. The Chinese government has placed restrictions on its supply and sales of REEs since around 2010 for various reasons. After United States president Donald Trump escalated the trade war with China in 2025, China introduced further restrictions, leading other countries with known reserves to step up their exploration and production efforts. As of 2025, the US and Myanmar produce the second- and third-highest amounts of REEs, but Brazil and India have the second- and third-largest reserves of the metals.

Tables

Overview of rare-earth metal properties · List of rare-earth elements
Scandium
Scandium
Z
21
Symbol
Sc
Name
Scandium
Etymology
from Latin Scandia (Scandinavia).
Selected applications
Light aluminium-scandium alloys for aerospace components, additive in metal-halide lamps and mercury-vapor lamps, radioactive tracing agent in oil refineries
Abundance(ppm)
022
Yttrium
Yttrium
Z
39
Symbol
Y
Name
Yttrium
Etymology
after the village of Ytterby, Sweden, where the first rare-earth ore was discovered.
Selected applications
Yttrium aluminium garnet (YAG) laser, yttrium vanadate (YVO4) as host for europium in television red phosphor, YBCO high-temperature superconductors, yttria-stabilized zirconia (YSZ) (used in tooth crowns; as refractory material - in metal alloys used in jet engines, and coatings of engines and industrial gas turbines; electroceramics - for measuring oxygen and pH of hot water solutions, i.e. in fuel cells; ceramic electrolyte - used in solid oxide fuel cell; jewelry - for its hardness and optical properties; do-it-yourself high temperature ceramics and cements based on water), yttrium iron garnet (YIG) microwave filters, energy-efficient light bulbs (part of triphosphor white phosphor coating in fluorescent tubes, CFLs and CCFLs, and yellow phosphor coating in white LEDs), spark plugs, gas mantles, additive to steel, aluminium and magnesium alloys, cancer treatments, camera and refractive telescope lenses (due to high refractive index and very low thermal expansion), battery cathodes (LYP)
Abundance(ppm)
033
Lanthanum
Lanthanum
Z
57
Symbol
La
Name
Lanthanum
Etymology
from the Greek "lanthanein", meaning to be hidden.
Selected applications
High refractive index and alkali-resistant glass, flint, hydrogen storage, battery-electrodes, camera and refractive telescope lenses, fluid catalytic cracking catalyst for oil refineries
Abundance(ppm)
039
Cerium
Cerium
Z
58
Symbol
Ce
Name
Cerium
Etymology
after the dwarf planet Ceres, named after the Roman goddess of agriculture.
Selected applications
Chemical oxidizing agent, polishing powder, yellow colors in glass and ceramics, catalyst for self-cleaning ovens, fluid catalytic cracking catalyst for oil refineries, ferrocerium flints for lighters, robust intrinsically hydrophobic coatings for turbine blades
Abundance(ppm)
066.5
Praseodymium
Praseodymium
Z
59
Symbol
Pr
Name
Praseodymium
Etymology
from the Greek "prasios", meaning leek-green, and "didymos", meaning twin.
Selected applications
Rare-earth magnets, lasers, core material for carbon arc lighting, colorant in glasses and enamels, additive in didymium glass used in welding goggles, ferrocerium firesteel (flint) products, single-mode fiber optical amplifiers (as a dopant of fluoride glass)
Abundance(ppm)
009.2
Neodymium
Neodymium
Z
60
Symbol
Nd
Name
Neodymium
Etymology
from the Greek "neos", meaning new, and "didymos", meaning twin.
Selected applications
Rare-earth magnets, lasers, violet colors in glass and ceramics, didymium glass, ceramic capacitors, electric motors in electric automobiles
Abundance(ppm)
041.5
Promethium
Promethium
Z
61
Symbol
Pm
Name
Promethium
Etymology
after the Titan Prometheus, who brought fire to mortals.
Selected applications
Nuclear batteries, luminous paint
Abundance(ppm)
01×10−15
Samarium
Samarium
Z
62
Symbol
Sm
Name
Samarium
Etymology
after mine official, Vasili Samarsky-Bykhovets.
Selected applications
Rare-earth magnets, lasers, neutron capture, masers, control rods of nuclear reactors
Abundance(ppm)
007.05
Europium
Europium
Z
63
Symbol
Eu
Name
Europium
Etymology
after the continent of Europe.
Selected applications
Red and blue phosphors, lasers, mercury-vapor lamps, fluorescent lamps, NMR relaxation agent
Abundance(ppm)
002
Gadolinium
Gadolinium
Z
64
Symbol
Gd
Name
Gadolinium
Etymology
after Johan Gadolin (1760–1852), to honor his investigation of rare earths.
Selected applications
High refractive index glass or garnets, lasers, X-ray tubes, computer bubble memories, neutron capture, MRI contrast agent, NMR relaxation agent, steel and chromium alloys additive, magnetic refrigeration (using significant magnetocaloric effect), positron emission tomography scintillator detectors, a substrate for magneto-optical films, high performance high-temperature superconductors, ceramic electrolyte used in solid oxide fuel cells, oxygen detectors, possibly in catalytic conversion of automobile fumes.
Abundance(ppm)
006.2
Terbium
Terbium
Z
65
Symbol
Tb
Name
Terbium
Etymology
after the village of Ytterby, Sweden.
Selected applications
Additive in neodymium based magnets, green phosphors, lasers, fluorescent lamps (as part of the white triband phosphor coating), magnetostrictive alloys such as terfenol-D, naval sonar systems, stabilizer of fuel cells
Abundance(ppm)
001.2
Dysprosium
Dysprosium
Z
66
Symbol
Dy
Name
Dysprosium
Etymology
from the Greek "dysprositos", meaning hard to get.
Selected applications
Additive in neodymium based magnets, lasers, magnetostrictive alloys such as terfenol-D, hard disk drives
Abundance(ppm)
005.2
Holmium
Holmium
Z
67
Symbol
Ho
Name
Holmium
Etymology
after Stockholm (in Latin, "Holmia"), the native city of one of its discoverers.
Selected applications
Lasers, wavelength calibration standards for optical spectrophotometers, magnetic fields,permanent magnets.
Abundance(ppm)
001.3
Erbium
Erbium
Z
68
Symbol
Er
Name
Erbium
Etymology
after the village of Ytterby, Sweden.
Selected applications
Infrared lasers, vanadium steel, fiber-optic technology
Abundance(ppm)
003.5
Thulium
Thulium
Z
69
Symbol
Tm
Name
Thulium
Etymology
after the mythological northern land of Thule.
Selected applications
Portable X-ray machines, metal-halide lamps, lasers
Abundance(ppm)
000.52
Ytterbium
Ytterbium
Z
70
Symbol
Yb
Name
Ytterbium
Etymology
after the village of Ytterby, Sweden.
Selected applications
Infrared lasers, chemical reducing agent, decoy flares, stainless steel, strain gauges, nuclear medicine, earthquake monitoring
Abundance(ppm)
003.2
Lutetium
Lutetium
Z
71
Symbol
Lu
Name
Lutetium
Etymology
after Lutetia, the city that later became Paris.
Selected applications
Positron emission tomography – PET scan detectors, high-refractive-index glass, lutetium tantalate hosts for phosphors, catalyst used in refineries, LED light bulb
Abundance(ppm)
000.8
Z
Symbol
Name
Etymology
Selected applications
Abundance(ppm)
21
Sc
Scandium
from Latin Scandia (Scandinavia).
Light aluminium-scandium alloys for aerospace components, additive in metal-halide lamps and mercury-vapor lamps, radioactive tracing agent in oil refineries
022
39
Y
Yttrium
after the village of Ytterby, Sweden, where the first rare-earth ore was discovered.
Yttrium aluminium garnet (YAG) laser, yttrium vanadate (YVO4) as host for europium in television red phosphor, YBCO high-temperature superconductors, yttria-stabilized zirconia (YSZ) (used in tooth crowns; as refractory material - in metal alloys used in jet engines, and coatings of engines and industrial gas turbines; electroceramics - for measuring oxygen and pH of hot water solutions, i.e. in fuel cells; ceramic electrolyte - used in solid oxide fuel cell; jewelry - for its hardness and optical properties; do-it-yourself high temperature ceramics and cements based on water), yttrium iron garnet (YIG) microwave filters, energy-efficient light bulbs (part of triphosphor white phosphor coating in fluorescent tubes, CFLs and CCFLs, and yellow phosphor coating in white LEDs), spark plugs, gas mantles, additive to steel, aluminium and magnesium alloys, cancer treatments, camera and refractive telescope lenses (due to high refractive index and very low thermal expansion), battery cathodes (LYP)
033
57
La
Lanthanum
from the Greek "lanthanein", meaning to be hidden.
High refractive index and alkali-resistant glass, flint, hydrogen storage, battery-electrodes, camera and refractive telescope lenses, fluid catalytic cracking catalyst for oil refineries
039
58
Ce
Cerium
after the dwarf planet Ceres, named after the Roman goddess of agriculture.
Chemical oxidizing agent, polishing powder, yellow colors in glass and ceramics, catalyst for self-cleaning ovens, fluid catalytic cracking catalyst for oil refineries, ferrocerium flints for lighters, robust intrinsically hydrophobic coatings for turbine blades
066.5
59
Pr
Praseodymium
from the Greek "prasios", meaning leek-green, and "didymos", meaning twin.
Rare-earth magnets, lasers, core material for carbon arc lighting, colorant in glasses and enamels, additive in didymium glass used in welding goggles, ferrocerium firesteel (flint) products, single-mode fiber optical amplifiers (as a dopant of fluoride glass)
009.2
60
Nd
Neodymium
from the Greek "neos", meaning new, and "didymos", meaning twin.
Rare-earth magnets, lasers, violet colors in glass and ceramics, didymium glass, ceramic capacitors, electric motors in electric automobiles
041.5
61
Pm
Promethium
after the Titan Prometheus, who brought fire to mortals.
Nuclear batteries, luminous paint
01×10−15
62
Sm
Samarium
after mine official, Vasili Samarsky-Bykhovets.
Rare-earth magnets, lasers, neutron capture, masers, control rods of nuclear reactors
007.05
63
Eu
Europium
after the continent of Europe.
Red and blue phosphors, lasers, mercury-vapor lamps, fluorescent lamps, NMR relaxation agent
002
64
Gd
Gadolinium
after Johan Gadolin (1760–1852), to honor his investigation of rare earths.
High refractive index glass or garnets, lasers, X-ray tubes, computer bubble memories, neutron capture, MRI contrast agent, NMR relaxation agent, steel and chromium alloys additive, magnetic refrigeration (using significant magnetocaloric effect), positron emission tomography scintillator detectors, a substrate for magneto-optical films, high performance high-temperature superconductors, ceramic electrolyte used in solid oxide fuel cells, oxygen detectors, possibly in catalytic conversion of automobile fumes.
006.2
65
Tb
Terbium
after the village of Ytterby, Sweden.
Additive in neodymium based magnets, green phosphors, lasers, fluorescent lamps (as part of the white triband phosphor coating), magnetostrictive alloys such as terfenol-D, naval sonar systems, stabilizer of fuel cells
001.2
66
Dy
Dysprosium
from the Greek "dysprositos", meaning hard to get.
Additive in neodymium based magnets, lasers, magnetostrictive alloys such as terfenol-D, hard disk drives
005.2
67
Ho
Holmium
after Stockholm (in Latin, "Holmia"), the native city of one of its discoverers.
Lasers, wavelength calibration standards for optical spectrophotometers, magnetic fields,permanent magnets.
001.3
68
Er
Erbium
after the village of Ytterby, Sweden.
Infrared lasers, vanadium steel, fiber-optic technology
003.5
69
Tm
Thulium
after the mythological northern land of Thule.
Portable X-ray machines, metal-halide lamps, lasers
000.52
70
Yb
Ytterbium
after the village of Ytterby, Sweden.
Infrared lasers, chemical reducing agent, decoy flares, stainless steel, strain gauges, nuclear medicine, earthquake monitoring
003.2
71
Lu
Lutetium
after Lutetia, the city that later became Paris.
Positron emission tomography – PET scan detectors, high-refractive-index glass, lutetium tantalate hosts for phosphors, catalyst used in refineries, LED light bulb
000.8
· Extraction and production › Production by country
Rank
Country
World
Reserves (million metric tons)
130
Reserves per capita (kg)
15.73
1
1
Rank
1
Country
China
Reserves (million metric tons)
44
Reserves per capita (kg)
31.07
2
2
Rank
2
Country
Brazil
Reserves (million metric tons)
21
Reserves per capita (kg)
98.39
3
3
Rank
3
Country
India
Reserves (million metric tons)
6.9
Reserves per capita (kg)
4.87
4
4
Rank
4
Country
Australia
Reserves (million metric tons)
5.7
Reserves per capita (kg)
202.39
5
5
Rank
5
Country
Russia
Reserves (million metric tons)
3.8
Reserves per capita (kg)
26.02
6
6
Rank
6
Country
Vietnam
Reserves (million metric tons)
3.5
Reserves per capita (kg)
34.45
7
7
Rank
7
Country
USA
Reserves (million metric tons)
1.9
Reserves per capita (kg)
5.47
8
8
Rank
8
Country
Greenland (Denmark)
Reserves (million metric tons)
1.5
Reserves per capita (kg)
249.90
9
9
Rank
9
Country
Tanzania
Reserves (million metric tons)
0.9
Reserves per capita (kg)
12.76
10
10
Rank
10
Country
South Africa
Reserves (million metric tons)
0.9
Reserves per capita (kg)
13.90
11
11
Rank
11
Country
Canada
Reserves (million metric tons)
0.8
Reserves per capita (kg)
20.40
Rank
Country
Reserves (million metric tons)
Reserves per capita (kg)
World
130
15.73
1
China
44
31.07
2
Brazil
21
98.39
3
India
6.9
4.87
4
Australia
5.7
202.39
5
Russia
3.8
26.02
6
Vietnam
3.5
34.45
7
USA
1.9
5.47
8
Greenland (Denmark)
1.5
249.90
9
Tanzania
0.9
12.76
10
South Africa
0.9
13.90
11
Canada
0.8
20.40
· Extraction and production › Production by country
Rank
Country
World
Production (kilo metric tons)
300
1
1
Rank
1
Country
China
Production (kilo metric tons)
270
2
2
Rank
2
Country
US
Production (kilo metric tons)
45
3
3
Rank
3
Country
Myanmar
Production (kilo metric tons)
31
4
4
Rank
4
Country
Australia
Production (kilo metric tons)
13
5
5
Rank
5
Country
Nigeria
Production (kilo metric tons)
13
6
6
Rank
6
Country
Thailand
Production (kilo metric tons)
13
7
7
Rank
7
Country
India
Production (kilo metric tons)
2.9
8
8
Rank
8
Country
Russia
Production (kilo metric tons)
2.5
9
9
Rank
9
Country
Madagascar
Production (kilo metric tons)
2
10
10
Rank
10
Country
Vietnam
Production (kilo metric tons)
0.3
Rank
Country
Production (kilo metric tons)
World
300
1
China
270
2
US
45
3
Myanmar
31
4
Australia
13
5
Nigeria
13
6
Thailand
13
7
India
2.9
8
Russia
2.5
9
Madagascar
2
10
Vietnam
0.3

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