Gemstone treatments
Enhancements, fillings, coatings, heat processes and disclosure clues used in gem identification.
33 entries
Assembled
Assembled Stones, Doublets and Triplets
Assembled stones combine separate materials to imitate a single gem or enhance appearance. They must be disclosed.
Color Enhancement
Dyeing
Dyeing artificially improves color in porous or fractured materials. Durability varies and disclosure is required.
Clarity Enhancement
Flux Healing, Corundum
Flux healing uses high temperature and flux to partially heal fractures in corundum. It improves apparent clarity and must be disclosed.
Clarity Enhancement
Fracture Filling, Corundum
Fracture filling improves apparent clarity in corundum. Lead-glass-filled ruby is the most important commercial example, but other fillers can occur.
Heat
Heat Treatment, Aquamarine
Heating aquamarine is common and stable. It improves color by reducing green or yellow components.
Heat
Heat Treatment, Beryl
Heating is common in several beryl varieties to improve or stabilize color. It is usually stable but should be disclosed when known.
Heat
Heat Treatment, Corundum
Heat is the most common corundum treatment. It can improve color and clarity, but unheated ruby and sapphire with fine color command a premium.
Heat
Heat Treatment, Quartz
Heating is common in commercial citrine and other quartz colors. It changes color centers and iron-related coloration.
Heat
Heat Treatment, Tanzanite
Nearly all commercial tanzanite is heated. The treatment is stable and widely accepted.
Heat
Heat Treatment, Tourmaline
Heat treatment is used to improve tourmaline color and is often stable. Disclosure is expected when known.
Color Enhancement
Irradiation and Annealing, Topaz
Most blue topaz on the market is irradiated and annealed. The treatment is stable after proper safety decay and disclosure.
Color Enhancement
Irradiation, Quartz
Irradiation modifies quartz color centers. The result may imitate natural smoky quartz, citrine, or other commercial colors.
Clarity Enhancement
Oil Filling, Emerald
Oiling is common in emerald and improves apparent clarity. Degree of filling matters: minor, moderate, or significant treatment affects value.
Color Enhancement
Smoke Treatment
Smoke treatment darkens opal body color to imitate black opal or improve contrast. It must be disclosed.
Impregnation
Stabilization
Stabilization impregnates porous material with polymer to improve durability and sometimes color. It is common in turquoise.
Color Enhancement
Sugar-Acid Treatment, Opal
Sugar and acid create carbon inside porous opal to darken the body. It can imitate more valuable black opal.
Surface Enhancement
Surface Coating
Coatings create color or optical effects on the surface only. They can be damaged by wear, polishing, or chemicals.
Color Enhancement
Bleaching
Bleaching removes unwanted color or stains. Acceptance depends on gem type, extent, and market norms.
Color Enhancement
Irradiation, Beryl
Irradiation creates or modifies color centers in beryl. Stability depends on variety and color center type.
Composite Appearance
Quench Crackling and Dyeing
Thermal shock creates cracks that are then dyed to imitate more valuable or unusual gems.
Surface Enhancement
Waxing
Waxing is a common minor surface enhancement. In jade it is often accepted when light, but heavy treatment should be disclosed.
Diffusion
Beryllium Diffusion
Beryllium diffusion introduces light elements during high-temperature heating to alter body color. It must be disclosed and usually reduces value compared with natural color.
Diffusion
Surface Diffusion
Surface diffusion adds coloring elements near the surface. It is less durable than body color because repolishing or recutting can remove the treated layer.
Color Enhancement
Dyeing, Pearls
Dyeing changes pearl body color to imitate naturally colored pearls or create fashion colors. It must be disclosed.
Impregnation
Polymer Impregnation, Jadeite
Acid bleaching followed by polymer impregnation improves transparency and color appearance but greatly reduces value.
Clarity Enhancement
Resin Filling, Emerald
Resin filling is a clarity enhancement similar in purpose to oil but often more stable. It must be disclosed and graded by extent.
Color Enhancement
Sugar-Acid Treatment
Sugar-acid treatment darkens porous material by carbonizing sugar inside the structure. It is deceptive if sold as natural color.
Clarity Enhancement
Fracture Filling, Diamond
Fracture filling improves apparent clarity but is not permanent under heat, repair, or harsh cleaning. It must be disclosed.
Color Enhancement
HPHT Color Treatment
High pressure high temperature treatment can remove brown color or create fancy colors in suitable diamonds. Lab testing is often required.
Color Enhancement
Irradiation, Diamond
Irradiation changes diamond color by creating color centers, often followed by annealing. Disclosure is required.
Color Enhancement
Irradiation, Tourmaline
Irradiation can alter tourmaline color centers. It may be used alone or followed by heating.
Clarity Enhancement
Laser Drilling
Laser drilling removes or lightens dark inclusions to improve clarity appearance. It is stable but must be disclosed.
Composite Filling
Lead Glass Filling
Lead glass filling turns very fractured ruby into a composite material. It is far less durable and far less valuable than untreated or simply…