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Black ATOMFAIR® LTO powder in a clear egg-shaped glass display bottle on a bright plain background.

Nano-Structured LTO Anode Powder 168 mAh/g ATOMFAIR®

Price range: $300.00 through $520.00

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

Research Grade ultra-fine LTO anode powder, PDF#49-0207 spinel phase. 1C capacity ≥168 mAh/g, ICE ≥95%, pH 11.0±0.5, moisture ≤1000 ppm. Order now.

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Description

Lithium Titanate Anode Powder (Ultra-Fine Nano-Structured Grade)

COMMERCIAL GRADE · PRODUCTION

Product Overview
High-drain secondary energy storage matrices and extreme kinetic evaluation arrays require solid-state materials with structural immunity to phase changes, and this premium high capacity LTO battery negative electrode material provides zero lattice strain parameters across prolonged cycling. Engineered explicitly to address how to optimize battery ultra high rate performance pathways, each sub-micron aggregate matrix incorporates an advanced spinel crystal lattice that unlocks accelerated lithium transportation pathways under massive rapid current loading. Balancing uncompromised performance margins with highly competitive lithium titanate powder price allocations, it integrates seamlessly into modern electrode slurry preparation scripts. This microstructural modifier functions perfectly alongside an inorganic solid electrolyte component grid, serving as a dependable reference material for academic research groups, pilot-scale formulation spaces, and corporate automotive validation testing workflows.

Technical Specifications
ANALYTICAL MATERIAL PARAMETER TECHNICAL SPECIFICATION RATINGS
Crystalline Phase Microstructure Lithium Titanate Spinel Lattice (PDF#49-0207 Standard Match Verified)
1C Rate Discharge Specific Capacity ≥ 168.00 mAh/g (Typical Output Boundary: 168.80 mAh/g)
Initial Coulombic Efficiency (ICE) ≥ 95.00% (@ 1C Window Evaluation, Typical Output: 97.52%)
Aqueous Suspension Matrix pH 11.00 ± 0.50 Typical Response Index (Tested Value: 10.94)
Karl Fischer Residual Moisture Bound ≤ 1000.00 ppm Strict Core Ceiling (Typical Lot Run: 650.00 ppm)
Median Granulometric Diameter (D50) 11.00 ± 3.00 μm Spherical Aggregate Size (Typical: 10.76 μm)
Particle Distribution Envelope Traces D10: 3.50 ± 1.50 μm (3.36) | D90 ≤ 35.00 μm (27.66)
BET Specific Surface Area (SSA) ≤ 10.00 m²/g Compact Boundaries (Typical Value: 8.48 m²/g)
Volumetric Tapped Powder Density ≥ 0.90 g/mL (Typical High Packing Densification: 1.35 g/mL)
Alternative Catalog Items Explore our complete chemical inventory for advanced carbon-coated fast-rate matrices, multi-component titanate composites, polyimide collector foils, or high-accuracy battery testing hardware frames.

Key Features & Advantages
  • Peak Capacitive Performance: Flagship structural tuning yields a supreme 168.80 mAh/g reversible capacity baseline, extracting maximum energy metrics from LTO structures.
  • Ultra-Fine Nano Crystallites: Sub-micron primary particle synthesis minimizes multi-directional solid-phase lithium transport boundaries for accelerated rate kinematics.
  • Outstanding Initial Efficiency: An elevated first-cycle Coulombic boundary (97.52%) prevents irreversible ion traps during initial battery cell conditioning.
  • Superior Tap Densification: An impressive 1.35 g/mL typical tap density provides higher active material loading margins and reduces overall electrode sheet thickness.

APPLICATION SCOPE: Premium selection for heavy-duty military power cells, high-output electric vehicle drive grids, high-power tools, and next-generation zero-strain electrode research.
PACKAGING LOGISTICS: Hermetically packaged under protective settings within high-barrier composite foil layers to prevent moisture exposure and track baseline repeatability benchmarks across a 12-month storage window.
OPERATIONAL COMPLIANCE NOTICE: Nanostructured polyanionic networks carry high crystalline stability but require secured hydration control. Store packages below 40 °C environmental thresholds and within under 80% RH relative humidity chambers to address how to optimize battery ultra high rate performance workflow requirements before sheet casting. Processed strictly under verified technical standard regulations.

TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: INQUIRY@ATOMFAIR.COM
Manufacturer: PRODUCTION DIVISION · ADVANCED ENERGY STORAGE DIVISION
Brand: INDUSTRIAL TESTING HARDWARE
Specifications are representative and subject to change without notice. For the latest version and compliance certificates, contact official sales channel.

This lithium titanate anode powder requires stringent moisture control to maintain its specified residual moisture below 1000 ppm. Its alkaline pH value of approximately 11 necessitates chemical compatibility verification during slurry preparation.

  • Moisture Sensitivity: Prolonged exposure to ambient humidity can elevate moisture content beyond the 1000 ppm threshold, compromising electrochemical performance.
  • Alkaline pH Consideration: The measured pH of 11.00 ± 0.50 requires selection of chemically resistant binders and solvents to avoid degradation or gelation during electrode processing.

How does the median particle size (D50) of 11 μm impact the achievable electrode loading density and rate performance of this LTO anode powder?

The D50 of 11.00 ± 3.00 μm, combined with a tapped density of ≥0.90 g/ml (typical 1.35 g/ml), enables high electrode loading densities, but the larger primary crystallites may limit ultra-high rate capability compared to sub-micron powders. However, the ultra-fine nano-crystallite assembly maintains accelerated solid-phase lithium transport, as reflected in the ≥168 mAh/g capacity at 1C and 97.52% ICE.

Can this LTO anode powder be directly processed with standard PVDF binder and NMP solvent given its matrix pH of 11.00 ± 0.50?

Yes, but the alkaline pH (11.00 ± 0.50) requires careful monitoring to avoid potential PVDF dehydrofluorination or gelation during slurry preparation, especially at elevated temperatures. Standard processing parameters should be validated with the specific binder system, as the pH remains within the typical range for LTO materials.

How should the ATOMFAIR LTO anode powder be stored to maintain its specified residual moisture level of ≤1000 ppm?

The powder should be stored in a dry, inert atmosphere (e.g., argon-filled glovebox or vacuum-sealed container) to prevent moisture uptake above its ≤1000 ppm Karl Fischer specification. The typical moisture value of 650 ppm indicates hygroscopicity, and exposure to ambient air will degrade electrochemical performance.

This LTO anode powder delivers industry-leading reversible capacity at 168.80 mAh/g and exceptional first-cycle efficiency of 97.52%, making it ideal for high-rate applications. However, its alkaline pH of 11 and moisture sensitivity up to 1000 ppm require strict dry-handling protocols in slurry preparation.

Positive

  • High Reversible Capacity: Achieves ≥168 mAh/g with typical 168.80 mAh/g, maximizing energy density in LTO-based anodes for high-performance cells.
  • Exceptional Initial Coulombic Efficiency: First-cycle efficiency of 97.52% typical minimizes irreversible capacity loss, improving initial cycle stability and overall cell energy throughput.

Trade-offs

  • Alkaline pH Requires Dry Handling: Matrix pH of 11.00 ± 0.50 indicates basic surface chemistry; requires anhydrous storage and processing to prevent moisture-induced lithium hydroxide formation.
  • Residual Moisture Up to 1000 ppm: Karl Fischer moisture ≤1000 ppm; batches near the upper limit may compromise slurry rheology or electrolyte compatibility in moisture-sensitive formulations.

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).

Additional information

Weight

200g, 1000g

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