Manganese doped titanium oxide
Manganese doped titanium oxide (CAS: 12032-74-5), with the linear formula MnTiO₃, is a nanopowder material with a molecular weight of 150.80 g/mol. This compound, also known as manganese titanate, exhibits a density of 3.85 g/mL and particle sizes typically below 50 nm. It finds applications in materials science, particularly within ceramics and nanomaterials research, owing to its unique doped oxide structure.
- IUPAC
- Manganese metatitanate,Manganese titanate
- Synonyms
- Manganese metatitanateManganese titanate

Advanced Ceramics
Manganese doped titanium oxide serves as a component in the development of advanced ceramic materials. Its specific properties are leveraged to engineer ceramics with tailored electrical or magnetic characteristics for specialised applications.
Nanomaterial Research
As a nanopowder, this material is of interest in nanomaterial research for fabricating novel nanostructures. The controlled doping of manganese into the titanium oxide lattice allows for investigation into quantum effects and advanced material functionalities.
Materials Science
This compound is utilised in broader materials science studies, exploring its potential in fields such as catalysis, sensor technology, or as a precursor for composite materials. Its oxide nature and dopant offer avenues for innovative material design.
| Molecular weight | 150.80 |
|---|---|
| Linear formula | MnTiO3 |
| Form | nanopowder |
| Density | 3.85 g/mL at 25 °C(lit.) |
| Particle size | <50 nm (XRD) |
| Protective equipment | Eyeshields, Gloves, type N95 (US), type P1 (EN143) respirator filter |
|---|---|
| Water hazard class (WGK, DE) | 3 |
Hazard information is provided for guidance. Always consult the product Safety Data Sheet (SDS), available on request, before handling.
Documentation
Every batch ships with a Certificate of Analysis covering assay, identity and purity; the grade is confirmed against your enquiry. Safety Data Sheets and technical data sheets are available on request.
Supply & logistics
Samples for technical evaluation; bulk MOQ by grade and packaging. In-stock material ships in 7–10 working days, worldwide, with full export documentation.
What is Manganese doped titanium oxide used for?
+
Manganese doped titanium oxide (CAS: 12032-74-5) is used in advanced ceramics, nanomaterial research, and general materials science due to its unique doped oxide structure.
What are the CAS number and formula for Manganese doped titanium oxide?
+
The CAS number for Manganese doped titanium oxide is 12032-74-5, and its linear formula is MnTiO₃.
What grade and purity does Tech Serve Solutions supply?
+
Tech Serve Solutions supplies Manganese doped titanium oxide as a nanopowder with a particle size of <50 nm (XRD). We do not represent this product as USP, BP, or EP grade and it should be considered for research and industrial purposes.
What are the safety and handling considerations for Manganese doped titanium oxide?
+
Handle Manganese doped titanium oxide with appropriate personal protective equipment, including eyeshields, gloves, and a type N95 (US) or type P1 (EN143) respirator filter. Ensure adequate ventilation. It is classified under WGK Germany 3.
How is Manganese doped titanium oxide packed and shipped?
+
Manganese doped titanium oxide is carefully packed to ensure product integrity during transit and is available for export globally by Tech Serve Solutions.
How can I request a sample or quote for Manganese doped titanium oxide?
+
To request a sample or a quote for Manganese doped titanium oxide, please contact our sales team through the website or via direct inquiry.
▶ Related products

Aluminosilicate, mesostructured
Metal & Ceramic Science

Aluminum carbide
Al4C3
Metal & Ceramic Science
Aluminum diboride
AlB2
Metal & Ceramic Science
Aluminum dodecaboride
AlB12
Metal & Ceramic Science
Aluminum nitride
AlN
Metal & Ceramic Science
Aluminum sulfide
Al2S3
Metal & Ceramic Science
Aluminum titanate
Al2O3·TiO2
Metal & Ceramic Science
Aluminum zinc oxide
Al2O3/ZnO
Metal & Ceramic Science▶ Explore more

3-Methyl-1,5-di-p-tolyl-1,4-pentazadiene
Chemical Synthesis

3-Methyl-1,5-pentanediol
Chemical Synthesis

3-Methyl-1-(2-methylphenyl)-1H-pyrazol-5-amine
C11H13N3
Chemical Synthesis
3-Methyl-1-(3′-sulfoamidophenyl)-5-pyrazolone
C10H11N3O3S
Chemical Synthesis