Description
ATOMFAIR® LITHIUM OXALATERESEARCH GRADE MATERIAL
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Lithium oxalate is moisture-sensitive and requires storage in a dry atmosphere. It should be handled in a controlled environment to prevent performance degradation.
- Moisture Sensitivity: The material absorbs moisture from ambient air, which can compromise its electrochemical performance.
- Storage Requirement: Store in a sealed container under inert gas, such as argon, to maintain battery-grade moisture levels.
- Handling Environment: Use within a glovebox or dry room to prevent exposure to humidity.
How does the battery-grade moisture specification of Lithium Oxalate influence its electrochemical performance compared to standard purity grades?
The battery-grade moisture specification ensures minimal water content, which prevents parasitic side reactions and electrolyte degradation in lithium-ion cells, enabling stable cycling and capacity retention. This specification, combined with 99.95% purity, makes it suitable for demanding battery manufacturing environments where moisture control is critical. Lower-purity or non-moisture-controlled grades would risk introducing water that could hydrolyze LiPF6 salts or form HF, degrading performance.
What are the integration constraints when using Lithium Oxalate in NMC or LFP cathode slurry formulations?
Lithium Oxalate is a solid white powder that must be incorporated into slurries under moisture-controlled inert gas or dry room environments to preserve its battery-grade integrity. The 99.95% purity and verified CAS registry structure ensure consistent reactivity with precursor materials, but the material’s high sensitivity to moisture requires that all mixing, coating, and drying steps maintain a dry atmosphere. Direct exposure to ambient humidity can lead to hydrate formation and particle agglomeration, compromising slurry homogeneity and electrode performance.
What specific infrastructure and handling procedures are required to maintain the battery-grade moisture status of Lithium Oxalate during laboratory research?
The material must be handled exclusively under moisture-controlled inert gas (e.g., argon or N₂ glovebox) or in a dry room environment to prevent moisture uptake. The 50g sealed container provides initial protection, but once opened, immediate transfer to an inert atmosphere is mandatory. Standard laboratory equipment like vacuum ovens or desiccators are insufficient unless they achieve sub-ppm H₂O levels; the product notice explicitly requires these conditions to preserve battery-grade integrity.
Lithium Oxalate (CAS 553-91-3) at 99.95% purity with battery-grade moisture verification delivers reliable electrochemical performance for lithium battery research, but its moisture sensitivity mandates handling under inert gas or dry room conditions, and its designation is strictly for laboratory-scale R&D.
Positive
- Ultra-high purity for reproducibility: 99.95% purity minimizes contaminant variability, enabling consistent and reproducible electrochemical characterization in lithium battery research.
- Battery-grade moisture verification: Verified low moisture content ensures structural stability and predictable performance in moisture-sensitive battery manufacturing processes.
Trade-offs
- Strict moisture control required: Material integrity must be preserved by handling exclusively under moisture-controlled inert gas or dry room environments; ambient exposure degrades battery-grade properties.
- Limited to laboratory R&D use: Designated solely for research and development; not qualified for commercial or production-scale applications without additional validation.
Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.
To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.
Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).
