1317-86-8

Basic information

• Product Name: STIBNITE
• Synonyms: Stibnite(8CI); Antimonite; Antimonite (mineral); Antimony glance; Antimony ores,stibnite
• CAS NO: 1317-86-8
• Molecular Formula: S
• Molecular Weight: 339.68
• Mol File: 1317-86-8.mol
• Article Data: 1

Chemical Properties

• Appearance: /
• Density: 4.570
• CAS DataBase Reference: STIBNITE(CAS DataBase Reference)
• NIST Chemistry Reference: STIBNITE(1317-86-8)
• EPA Substance Registry System: STIBNITE(1317-86-8)

Safety Data

• Hazardous Substances Data: 1317-86-8(Hazardous Substances Data)

Usage

General Description

Stibnite, also known as antimony glance, is a lead-gray mineral that is the principal ore of antimony. It is commonly found in hydrothermal deposits and is often associated with other sulfide minerals such as galena and pyrite. Stibnite has a high specific gravity and is known for its distinctive metallic luster. It is primarily used in the production of antimony and antimony compounds, which are used in a variety of applications including flame retardants, batteries, and metal alloys. Stibnite is also known for its toxicity and has been historically used in the form of stibnite powder as a medicine and poison.

InChI:InChI=1/3O.Sb/q3*-1;/rO3Sb/c1-4(2)3/q-3

Upstream product

• 7440-36-0 antimony 
• 7704-34-9 sulfur 

Related news

STIBNITE (cas 1317-86-8) sensitized hollow cubic TiO2 photoelectrodes for organic-inorganic heterojunction solar cells08/22/2019

Enhancing power conversion efficiency in organic-inorganic heterojunction solar cells faces several serious hurdles. Although standard TiO2 nanoparticles-based heterojunction solar cells are moderately efficient, the TiO2 nanostructure has several drawbacks including a disordered low surface are...detailed

Bio-oxidation of refractory gold ores containing STIBNITE (cas 1317-86-8) and gudmundite08/20/2019

Arsenic and antimony are environmental pollutants associated with several diseases, including skin cancer. One of the main sources of both elements is the oxidation of sulphide minerals, particularly arsenopyrite and therefore any of both elements is a concern in gold mining operations because a...detailed

Non-first-order Kinetics Modelling Method for STIBNITE (cas 1317-86-8) Flotation Process08/19/2019

As the mineral particle size and the drug effect are not uniform, resulting in a single flotation rate constant cannot describe the flotation process accurately. In this paper, based on the results of stibnite batch flotation, the non-first-order kinetic model is proposed to describe the stibnit...detailed

Effect of selected parameters on STIBNITE (cas 1317-86-8) concentrates leaching by ozone08/18/2019

A novel leaching process for stibnite concentrates using ozone as oxidant has been studied in this paper. The main factors affecting the leaching rate such as leaching temperature, concentration of leaching agent, gas flow rate and liquid to solid ratio have been investigated comprehensively. In...detailed

Extracting antimony from high arsenic and gold-containing STIBNITE (cas 1317-86-8) ore using slurry electrolysis08/16/2019

This study investigated the leaching and electrowinning of antimony from a complex, high arsenic and gold-containing stibnite concentrate ore (As-Au-Sb ore) using slurry electrolysis (SE). The results indicated that the leaching efficiency of antimony was higher than 98%, and those of iron and a...detailed

Separation and purification Sb2S3 from STIBNITE (cas 1317-86-8) by vacuum distillation08/15/2019

Stibnite is the main raw material employed to produce antimony. With the excessive exploitation of high-grade stibnite, low-grade stibnite become more and more important. This study aimed to introduce a vacuum process for recovering and enriching antimony from low-grade stibnite. At the pressure...detailed

Relevant articles and documents

Elaborated 1H NMR study for the ligitional behavior of two thiosemicarbazide derivatives towards some heavy metals (Sn(II), Sb(III), Pb(II) and Bi(III)), thermal, antibacterial and antifungal studies

A new series of heavy metal complexes are prepared. Sn(II), Sb(III), Pb(II) and Bi(III) are the metal ions used in complexation with two thiosemicarbazide ligands. The IR and 1H NMR spectra of the free ligands display their presence in thiole-thione forms coincide with each other. The IR spectra of the complexes support the presence of 2:2 molar ratio (M:HL) with HL1 ligand and 1:1 beside 1:2 with HL2. The ligand coordinates as bi molecules in some complexes and displays two tautomer forms at the same complex molecule 1H NMR spectra of Sn(II) and Sb(III) complexes were done and comes coincide with IR data. The electronic spectral analysis displays a lower shift appearance in n → π* charge transfer band in most isolated complexes. As well as, a new band is shinned in visible region with Sb(III), Bi(III) complexes and Sn(II)-HL2. This band is pointed to its use in spectrophotometric analysis for these metal ions. The TG analysis for all isolated compounds was briefly discussed. The molecular modeling parameters support the stability of thiole form of the free ligands in comparing with their thiones by a small difference. The antibacterial and antifungal activities were studied against some organisms and reveal the priority of most investigated complexes.