Description
Our newest class of material: Sb2xAs2(1-x)S3 comes in perfect 1:1:3 stoichiometry consisting of Sb-Sb-S3 atoms. After 34 growth trials in a year, perfect stoichirometry, large single crystal domain size, minimal defect density (1 parts in 100,000 unit cells), and perfected purity level (99.9998%) are achieved. In the bulk form, antimony arsenic sulfide (SbAsS₃) is a direct gap semiconductor and has band-gap at around 1.7 eV. Similar to molybdenum disulfide, it has layered structure (lamellar) with weak interlayer coupling and can be isolated down to monolayers. The monolayer thickness measures ~0.8 nm and the monolayer SbAsS₃ is waiting to be discovered both experimentally and theoretically. Our crystals are large in size ~5-8mm and show remarkable PL characteristics.
Our crystals are grown by state-of-the-art growth techniques over 8 weeks and show high crystallinity. Raman spectrum displays very sharp and clear modes with FWHM less than 6cm-1. Single crystal SbAsS₃ comes ready for exfoliation and is ideal for 2D research.
Summary:
Sb2xAs2(1-x)S3 alloys are created by alloying Sb into As2S3.
Please specify your x value when ordering
Space group: P21/c
Layered: Yes / Exfoliates to monolayers
Band gap: ~1.7 eV in bulk
Purity: Semiconductor grade (6N) 99.9999%
Growth technique: Vapor transport technique – Duration: 2.0 months
Sample size: 5-10 mm
Additional Information
Elements: |
Sb,As,S |
Element: |
Antimony |
Element: |
Arsenic |
Element: |
Sulfur |
Formula: |
SbAsS3 |
Material class: |
M2X3 |
Material class: |
Arsenide |
Material class: |
Alloy |
Properties: |
Semiconductor |
Band gap range: |
Unknown |
Growth method: |
CVT |
Doping: |
Undoped |