Lead Telluride (PbTe) Evaporation Pellets, 99.99% Purity

Lead Telluride (PbTe) Evaporation Pellets, 99.99% Purity

ZHC LAB Lead Telluride (PbTe) evaporation pellets are high-purity compound source materials supplied for evaporation coating, thin-film deposition research, optical and functional films, and laboratory PVD process development. The pellet format is convenient for weighing, source loading, and small-batch experimental workflows where clean handling and controlled material identity are important.

Key Features

High-Purity Compound Evaporation Material
Available purity options include 99.99% (4N) for research workflows that require controlled compound composition.

Pellet Format for Source Loading
Available particle-size options include 0.118 in-0.197 in (3-5 mm) pieces. Package options include 1 kg, 100 g, 500 g depending on selected purity and configuration.

Compound Material Selection
This material is a IV-VI thermoelectric semiconductor supplied as evaporation pellets for thin-film deposition and coating research.

Technical Specifications

Material: Lead Telluride (PbTe)
Form: Evaporation Pellets
Purity Options: 99.99% (4N)
Available Size Options: 0.118 in-0.197 in (3-5 mm) pieces
Package Options: 1 kg, 100 g, 500 g
Category: Evaporation Materials
Typical Use: Evaporation source material, PVD research, optical coating, and laboratory materials science

Material Handling and Quality Notes

– Quality control: source information notes chemical analysis methods such as ICP/GDMS and screening for particle size and appearance consistency.
– Packaging and storage: keep sealed, dry, and protected from contamination; handle with clean gloves or tools before loading.

Quality-Control and Handling Indicators

Additional technical indicators reflected from the source product page:

– Analytical checks: ICP-MS trace-element analysis; ICP impurity/composition analysis; GDMS trace-metal analysis; carbon/sulfur impurity analysis; nitrogen/oxygen impurity analysis; chemical composition analysis.
– Inspection focus: particle-size screening; appearance inspection; dimensional verification.
– Handling and storage: sealed dry storage and protective packaging; clean-glove handling to avoid oil, dust, moisture, and surface contamination; careful handling to prevent compression, impact, or chipping.
– Deposition-use context: magnetron sputtering systems; ion sputtering systems; micro/nano fabrication research; semiconductor thin-film development; photovoltaic materials research; flat-panel display coating research.

Common Applications

– lead telluride evaporation source loading
– thermoelectric and infrared detector film research
– IV-VI semiconductor and chalcogenide material studies
– laboratory PbTe deposition workflows
– Academic, industrial, and pilot-scale thin-film materials research