Cell Lab Sodium Nickel Manganese Oxide Powder [NaNi₀.₅Mn₁.₅O₄ | 50 g | High-Purity Spinel Cathode Material for Sodium-Ion Batteries]

Cell Lab Sodium Nickel Manganese Oxide Powder [NaNi₀.₅Mn₁.₅O₄ | 50 g | High-Purity Spinel Cathode Material for Sodium-Ion Batteries]

Spinel-structured NaNiMn oxide for advanced sodium-ion battery cathode development

The Cell Lab Sodium Nickel Manganese Oxide Powder (NaNi₀.₅Mn₁.₅O₄) is a high-purity, spinel-type cathode material engineered for sodium-ion battery (SIB) research. Combining dual redox couples (Mn⁴⁺/Mn³⁺ and Ni⁴⁺/Ni³⁺), it enables reversible Na⁺ insertion and extraction while maintaining structural integrity across charge–discharge cycles. With submicron particle size and ≥99.9 % purity, this material ensures uniform slurry formulation and consistent electrochemical performance — ideal for both laboratory and pilot-scale sodium-ion R&D.

Key Features

• Spinel Crystal Structure: Facilitates efficient Na⁺ intercalation/deintercalation and excellent phase stability.

• Dual Redox Mechanism: Leverages Mn⁴⁺/Mn³⁺ and Ni⁴⁺/Ni³⁺ redox couples for improved capacity and voltage window.

• High Chemical Purity (≥99.9 %): Reduces contamination and side reactions for reproducible testing results.

• Submicron Particle Size (≤3 µm): Enhances slurry uniformity and electrode kinetics in sodium-ion systems.

• Designed for Sodium-Ion Cathode Research: Applicable to both academic experiments and prototype battery design.

Technical Specifications

Trace Impurity Content (Max, ppm):

Trace Impurity Content (Max, ppm):
Fe 20 | Cu 12 | Co 25 | Ca 7 | K 15 | Mg 20 | Si 18 | Al 25 | Zr 15

Applications & Industries

• Sodium-ion (Na-ion) battery cathode R&D

• Solid-state sodium energy storage systems

• High-voltage spinel cathode development

• Pilot-scale material synthesis and electrode prototyping

• Fundamental studies of Na⁺ insertion mechanisms

FAQ

Q1: What is the crystal structure of NaNi₀.₅Mn₁.₅O₄?
It has a spinel-type structure that allows reversible Na⁺ intercalation while maintaining phase stability.

Q2: What advantages does this cathode material offer?
Dual redox activity enhances capacity and voltage range, enabling improved energy density.

Q3: Can it be used in solid-state sodium-ion cells?
Yes. It is compatible with both liquid and solid electrolytes used in sodium-ion systems.

Q4: What purity level is provided?
The powder features ≥99.9 % purity, with extremely low transition-metal and alkali impurities.

Q5: Is custom particle sizing available?
Yes. Particle size distribution and surface modification can be tailored upon request.