MSE PRO Conductive Titanium Suboxide Nanopowder, C-TiOX NP

MSE PRO™ Conductive Titanium Suboxide Nanopowder, C-TiOX NP

Description:

TiOX nanparticale is commonly known as titanium black or Magneli Phase Titanium Oxide (Ti4O7). It is a low-valence titanium oxide with a unique partially reduced Ti4+/Ti3+ mixed valence structure. Unlike conventional TiO2, it exhibits metallic-like conductivity (higher electronic conductivity 1000 S/cm than carbon black 100 S/cm) and exceptional chemical and electrochemical stability, making it valuable in numerous advanced applications. MSE is able to supply TiOX powder with 5nm to 1um particle size. Other particle size powders or nanowires can be custom-made upon request.

Applications:

• Conductive additives in new battery system
• Catalyst support for electrochemical catalysts in electrolysis, fuel cell and metal air batteries
• Additive for lithium ion batteries, Li-S batteries, Li-O2 batteries
• Membrane
• Gas sensors
• Photo catalysis
• Air purifications
• Water treatment
• Drug delivery

Typical Properties:

Storage: keep in the closed container away from humidity

Literature Reference:

• X. Li, et al., “Magneli phase Ti4O7 electrode for oxygen reduction reaction and its implication for zinc-air rechargeable batteries”, Electrochimica Acta, 2010, 55, 5891;
• X. Wu, et al.,” A Review: synthesis and applications of titanium sub-oxides”, Materials, 2023, 16, 6874;
• D. POrtehault, et al., “Facile general route toward tunable magneli nanostructures and their use as thermoelectric metal oxide/carbon nanocomposite”, ACS nano, 2011, 5, 9052;
• Z. Zheng, et al. “NiCo2O4 nanoflakes supported on titanium suboxide as a highly efficient electrocatalyst toward oxygen evolution reaction”, Intl. J. Hydrogen Energy, 2016, doi: 10.1016/j.ijhydene.2016.11.187.
• D. Gueon, et al., “Discovery of dual-functional amorphous titanium suboxide to promote polysulfide adsorption and regulate sulfide growth in Li-S batteries”, Advanced Sci., 2022, 9, 2200958