Materials Powering the Future of Energy

The Critical Materials Monitor aims to improve understanding of supply chains essential for the energy transition, the transition to more sustainable energy. It offers insights into the critical minerals required, outlines the components of key technologies, and provides in-depth reserve, production, and trade analysis.

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Thailand

Thailand

Critical minerals overview

Share of total world production, 2022

  1. Dysprosium
    2.37%
  2. Aluminium
    No data
  3. Arsenic
    No data
  4. Barium
    No data
  5. Beryllium
    No data
  6. Boron
    No data
  7. Cadmium
    No data
  8. Cerium
    No data
  9. Chromium
    No data
  10. Cobalt
    No data
  11. Copper
    No data
  12. Erbium
    No data
  13. Europium
    No data
  14. Gadolinium
    No data
  15. Gallium
    No data
  16. Germanium
    No data
  17. Graphite
    No data
  18. Hafnium
    No data
  19. Holmium
    No data
  20. Indium
    No data
  21. Iridium
    No data
  22. Iron
    No data
  23. Lanthanum
    No data
  24. Lithium
    No data
  25. Magnesium
    No data
  26. Manganese
    No data
  27. Molybdenum
    No data
  28. Neodymium
    No data
  29. Nickel
    No data
  30. Niobium
    No data
  31. Osmium
    No data
  32. Palladium
    No data
  33. Phosphorus
    No data
  34. Platinum
    No data
  35. Praseodymium
    No data
  36. Rhodium
    No data
  37. Ruthenium
    No data
  38. Samarium
    No data
  39. Scandium
    No data
  40. Selenium
    No data
  41. Silicon
    No data
  42. Silver
    No data
  43. Tantalum
    No data
  44. Tellurium
    No data
  45. Terbium
    No data
  46. Thorium
    No data
  47. Thulium
    No data
  48. Tin
    No data
  49. Titanium
    No data
  50. Tungsten
    No data
  51. Uranium
    No data
  52. Vanadium
    No data
  53. Ytterbium
    No data
  54. Yttrium
    No data
  55. Zinc
    No data
  56. Zirconium
    No data
2/56

The United States Geological Survey (USGS) publishes annual summary reports that provide estimates of reserve and production statistics for individual minerals and materials in specific countries. Reserves refer to the economically extractable or producible portion of the reserve base at the time of assessment. Production signifies the amount of a mineral or material that has been extracted or manufactured within a certain period.

Trade of mineral related commodities, 2022

Material-related commodities are classified into four groups, two of which are shown here: Raw (unprocessed mineral ore in natural form), Processed (processed or purified mineral ore).

You can find a full list of commodities described in the corresponding mineral page. This graph illustrates the aggregated annual imports and exports of the country for the selected critical mineral, as well as top trading partners.

Raw materials

Overall import value (USD)
$513M
Overall export value (USD)
$210M

Processed materials

Overall import value (USD)
$8.4B
Overall export value (USD)
$1.6B

* Includes one or more commodity codes that include multiple minerals. The data does not allow identification of the percentage of trade for each mineral.

† Includes one or more commodity codes that include multiple production stages (raw, processing, products, and waste/scrap). The data does not allow identification of the percentage of trade for each stage.

Trade of technology related commodities, 2022

Technology-related commodities are classified into three groups:: Midstream (chemical and material inputs of technology components), Downstream (fully assembled components or products), and Waste/Recycling (including recycled or waste products and components). Commodities are further arranged according to the relevant technology components.

This graph presents the reported import and export value of the country for each relevant commodity, as well as the resulting trade balance.

Import value (USD)

Trade balance (-/+ USD)

Export value (USD)

Cathodes

Chemical mixtures and preparations
$585M
-$71M
$515M
Electrical capacitors
$31M
-$23M
$7.6M
Salts of oxometallic or peroxometalic acids
$9.1M
-$9.1M
$831
Salts of inorganic acids or peroxoacids
$7.1M
-$7M
$96K
Phosphides
$349K
+$617K
$967K
Mixed methal hydroxides
$1.4M
+$4.6M
$6M

Anodes

Carbon and graphite articles
$17M
-$17M
$205K

Electrolyte

Chemical mixtures and preparations
$585M
-$71M
$515M
Fluorides, other than aluminum
$7.4M
-$7M
$313K
Mixed methal hydroxides
$1.4M
+$4.6M
$6M
Chemical residues
$1M
+$5.4M
$6.4M
Fluorides, including fluorisilicates and fluoroaluminates
$5M
+$37M
$42M

Separator

Syterne polymers, laminated, not self-adhesive
$46M
-$45M
$1.2M
Plastic self-adhesive flat shapes
$87M
-$35M
$52M
Propylene polymers, laminated, not self-adhesive
$134M
+$68M
$202M
Ethylene polymers, laminated, not self-adhesive
$150M
+$133M
$283M

Batteries (general)

Electric accumulators, lithium-ion
$432M
-$369M
$63M
Electric accumulators, nickel-metal hydride
$44M
-$42M
$2.1M
Electric accumulators, nickel-cadmium
$3.5M
-$3.3M
$171K
Electric accumulators
$48M
-$483K
$47M
End-of-Life batteries, Electrical and electronic waste and scrap containing batteries
$825
+$82K
$83K
End-of-Life batteries, spent or not, unsorted and not containing lead, cadmium or mercury
$2.1K
+$666K
$668K
End-of-Life batteries, other 2
$7.9K
+$6.9M
$6.9M

Referencing

When citing any information on this website, please use the following citation: Columbia University CGEP. 2024. Critical Materials Monitor. http://criticalmaterialsmonitor.org

Contact

Critical Materials Monitor is run by the Center on Global Energy Policy at Columbia University. The project is led by Tom Moerenhout.
Contact us: criticalmaterials@columbia.edu.