Searlesite

NaBSi2O5(OH)2
IMA status
  • Approved
  • Grandfathered
IMA symbol
Sle
Discovered
1914
Also known as
  • Searlesiet

Where it forms, where it's found

Geological setting

Boron bearing playa deposits.

Commonly interbedded with oil shales or marls (Green River Formation, USA); in boron-bearing evaporite deposits (California, USA); rarely in vugs in phonolite (Point of Rocks,New Mexico, USA).

Type locality
Searles Lake
  1. San Bernardino County
  2. California
  3. USA

35.7383°, -117.3739°

27recorded occurrences
Source · OpenStreetMap

Physical

Hardness
123456789103.5/ 10 MOHS
  1. 1Talc
  2. 2Gypsum
  3. 3Calcite
  4. 4Fluorite
  5. 5Apatite
  6. 6Orthoclase
  7. 7Quartz
  8. 8Topaz
  9. 9Corundum
  10. 10Diamond
Transparency
Transparent
Colour
White · light brown
Tenacity
brittle
Cleavage
Perfect

Perfect on (100), imperfect on (102), (010)

Density
2.44 g/cm³

Optical

Optical type
Biaxial (-) · 2V measured = 55°
Refractive index
1.516 – 1.535
Surface relief
Moderate
Principal indices
nα 1.516 · nβ 1.531 · nγ 1.535
Dispersion
none
UV response
may fluoresce green under SW UV.
Michel-Lévy diagramhighlighted lineδ = 0.0190
Attainable Michel-Lévy rangeΔ ∈ [0, t·δmax]190 nm1st order
Δ = 0Δmax
Thin-section mosaic70 grains · random 3D orientations
PPLpleochroism per grain
XPLindependent extinctions · rotate the stage
Interference simulatorsingle grain · PPL ↔ XPL
PPLpleochroism only · colour blends on rotation
XPLinterference colour · extinct every 90°
Retardation190 nm
Order1st order
XPL colour

Crystallography

Crystal system
Monoclinic
Space group
P21
Cell parameters
a = 7.9814(12) Å · b = 7.0657(8) Å · c = 4.9054(4) Å
Cell angles
β = 93.95(1) °
Ratio a:b:c
1 : 0.885 : 0.615
Z
2
Morphology

Flat crystals, to 17 cm, occur along bedding planes. Commonly as spherulitic aggregates of radiating acicular to prismatic crystals; as massive granular aggregates.

Type-locality form

Nearly white spherulites about a millimeter in diameter, composed of fairly well-formed, radiating fibers. Massive.

Crystal structure

Chemical composition

Constituent elements
Mass composition breakdown
ElementAtoms At. mass g/mol Mass g/molMass share
8OOxygenOxygen715.999111.993
54.90%
14SiSiliconSilicon228.08556.170
27.54%
11NaSodiumSodium122.99022.990
11.27%
5BBoronBoron110.81010.810
5.30%
1HHydrogenHydrogen21.0082.016
0.99%
Total203.979100.00%

Mass share = atoms × atomic mass ÷ molar mass × 100

From IMA formula

Impurities
  • Al
  • Fe
  • Mg
  • H2O

Synonyms

  • Searlesiet

In other languages

French
Searlésite
German
Searlesit
Spanish
Searlesita
Italian
Searlesite
Japanese
シアーレス石

Classification

Strunz
10th ed.

9.EF.15

  • 9SilicatesClass
  • 9.EPhyllosilicatesDivision
  • 9.EFSingle nets with 6-membered rings, connected by M[4], M[8], etc.Group
  • 9.EF.15SearlesiteSpecies
Dana
8th ed.

71.03.05.04

  • 71Phyllosilicates Sheets of Six-membered RingsClass
  • 71.03Sheets of 6-membered rings with 2:1 claysType
  • 71.03.05— unnamed intermediate level —Group
  • 71.03.05.04SearlesiteSpecies
CIM

17.5.3

  • 17Silicates Containing other AnionsClass
  • 17.5BorosilicatesGroup
  • 17.5.3SearlesiteSpecies

Literature, links & citation

Citations
  1. 1914Larsen, E.S., Hicks, W.B. (1914) Preliminary note on searlesite, a new mineral. Journal of the Washington Academy of Sciences: 4(14): 397-398.
  2. 1914Larsen, E.S., Hicks, W.B. (1914) Searlesite, a new mineral. American Journal of Science: 38: 437-440.
  3. 1924Rogers, A.F. (1924). The crystallography of searlesite. American Journal of Science: 5(42): 498-502.
  4. 1934Foshag, William F. (1934) Searlesite from Esmeralda County, Nevada. American Mineralogist, 19 (6) 268-274
  5. 1946Fahey, J. (1946) Searlesite from the Green River Formation of Wyoming. In Geological Society of America Bulletin: 57(12): 1192-1192.
Cite this entry
@misc{mineral2026,
  author    = {Mineral Index editorial board},
  title     = {Searlesite — Mineral Index},
  year      = {2026},
  url       = {https://mineralindex.org/minerals/searlesite-3600},
  note      = {Accessed 2026-05-11}
}