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NEI Introduces Sodium Ferric Pyrophosphate (“NFPP”) electrode sheets

April 10, 2025

NEI is pleased to now offer Sodium Ferric Pyrophosphate (Na4Fe3(PO4)2P2O7) electrode sheets. NFPP has emerged as an attractive cathode material for sodium-ion batteries. The advantages of NFPP mirror that of LiFePO₄ (LFP) in lithium-ion batteries, such as excellent cycling stability and relatively low cost for high volume applications. Similar to LFP, NFPP has a NASICON-type structure with a structurally stable 3D framework. In addition to demonstrating a reversible capacity of about 100 mAh/g, NFPP has an operating voltage of 3.1V (Na+/Na). The intrinsic electronic conductivity of NFPP is low, as it is in most other phosphate-based materials.

NEI NFPP SEM images

SEM images showing the surface and cross section of NANOMYTE® NAB-65E NFPP electrode

NANOMYTE® NAB-65E

NEI’s NAB-65E electrodes are fabricated using ultrafine NFPP particles with carbon in such a fashion that the inherent drawbacks of NFPP are overcome. In addition to being able to customize the loading and electrode formulation for NAB-65E, NEI can also customize the composition of NFPP through substitution of the cations.

Product Specifications:

  • Active Material Formula: Na4Fe3(PO4)2P2O7
  • Average Particle Size (D50): 6.5 µm
  • Specific Surface Area: 7.4 m2/g
  • Current Collector: Aluminum (16 µm thick)
  • Sheet Dimensions: 5 in x 10 in (127 mm x 254 mm); coated edge-to-edge
  • Calendared: Yes
  • Electrode Coating: Single or Double-sided sheets (as specified)
  • Coating Thickness: 100 µm ± 5% (excluding current collector)
  • Standard Expected Areal Capacity: 1.0 mAh/cm2 ± 5% (per side)
  • Active Material Loading: 10.0 mg/cm2 ± 5% (per side)

Technical Links:
View Specification Sheet (pdf) | View Safety Data Sheet (pdf)

Available Quantities:
NEI electrode sheets are available in packs of 2, 5, & 10-sheet packs or larger. Request a quote today!

NEI Sodium-ion Electrode Sheets

NEI produces an extensive range of Na-ion cathode and anode electrode sheets, with the option to choose from our standard specifications or customized to meet your specific research needs. Our sodium-ion battery electrode sheets offer a reliable and efficient solution for researchers and developers pushing the boundaries of this exciting energy storage technology. Learn More »

Electrode Customization Options

Don’t settle for a one-size-fits-all solution! NEI understands that your battery development needs are unique. With NEI’s customizable electrode fabrication services, you have the power to create the perfect lithium-ion battery solution for your unique needs. NEI’s electrodes can be customized to your specification in order to accommodate different active material loadings, electrode composition, coating widths and thickness, binder type & content, and more. To make your custom request, fill out our quote form, select “Custom” under specifications, and let us know your requirements in the comments.

About NEI Corporation:

For over 27 years, NEI Corporation has provided advanced material solutions to customers worldwide. NEI excels in designing, developing, and producing application-specific materials. The company offers a comprehensive range of solutions, including cathode, anode, and electrolyte materials for lithium-ion and sodium-ion batteries, as well as extensive in-house materials development, characterization, and testing services. NEI’s materials science expertise facilitates close partnerships and seamless product integration.

 

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NEI Announces New In-house SEM Services

NEI Invests in Cutting-Edge Technology with New SEM

Somerset, New Jersey (USA) – NEI is thrilled to celebrate a significant upgrade to our characterization capabilities: the acquisition of a high-resolution Scanning Electron Microscope (SEM)! This powerful microscope is equipped with both a Backscattered Electron Detector (BSD) and a Secondary Electron Detector (SED) to readily identify different phases present in a sample. It can obtain images up to 100,000 times magnification and resolution smaller than 10 nm, to provide crisp and high-resolution images, allowing you to see your materials in unprecedented detail. With our new in-house SEM capabilities, NEI can now accommodate SEM requests more efficiently to deliver faster, cost-effective results. Our research team can analyze your materials and discuss findings with you directly, providing seamless integration for your R&D projects with us.

Industry Benefits of High-Resolution Imaging

By visualizing a material’s microstructure at the nanoscale, researchers and engineers can gain invaluable insights in order to create superior products with enhanced performance, efficiency, and reliability.

Battery Industry

  • Understand Degradation Mechanisms: Identify factors leading to capacity fade, power loss, and safety hazards.
  • Optimize Material Design: Tailor particle size, morphology, and composition for enhanced performance.
  • Evaluate Manufacturing Processes: Assess the impact of processing techniques on material microstructure.
  • Predict Battery Lifespan: Correlate microstructure with battery cycle life and performance.
  • Improve Quality Control: Detect defects and inconsistencies in battery materials.
  • Accelerate Development: Gain insights to develop advanced battery technologies.

Coatings Industry

  • Optimize Coating Performance: Understand how factors like particle size, distribution, and adhesion impact durability and functionality.
  • Accelerate Development: Visualize the effects of different coating formulations and processing conditions to refine product development.
  • Improve Quality Control: Detect defects, contaminants, and inconsistencies in the coating, ensuring product reliability.
  • Analyze Failure Modes: Identify the root cause of coating failures through detailed examination of the coating’s microstructure.
  • Develop Innovative Coatings: Explore new coating materials and technologies by visualizing their behavior at the nanoscale.

NEI’s Comprehensive Approach

Over the past 27 years, NEI has cultivated a team of materials scientists and engineers who work with specialty materials every single day. This means you can rely on our wealth of knowledge regarding lithium-ion and sodium-ion battery technology, protective surface coatings, nanomaterials, polymers, ceramics, composites, and more. With our comprehensive approach, NEI’s team of experts can provide in-depth analysis and interpretation of all SEM data, to help you to make informed decisions and propel your materials development process forward.

Learn more about our SEM services and request a free consultation to speak with one of our materials experts about your specific needs and how we can help you accomplish them.

About NEI Corporation:

Founded in 1997, NEI develops, manufactures, and sells advanced specialty materials for a broad range of industrial customers around the world. The company’s core competencies are in designing, developing, and producing products that meet the specific application needs of its customers. NEI’s products, which are sold under the registered trademark NANOMYTE®, are backed by a suite of issued and pending patents. NEI’s products include:  Lithium-ion Battery MaterialsNa-ion Battery MaterialsFunctional & Protective Coatings, and Specialty Nanoparticle-based products.

NEI is a solutions provider, working closely with customers to produce and implement materials for their applications through a variety of in-house materials development, characterization, and testing services.

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NEI Expands Selection of Materials for Lithium-ion & Sodium-ion Batteries

January 13, 2022

Somerset, New Jersey (USA) – Today, NEI Corporation announced customers can now order from an expanded selection of cathode, anode, and solid electrolyte materials for both lithium-ion and sodium-ion batteries. The company, which is a leader in the development, manufacture, and supply of specialty materials, has been a go-to organization for producing and delivering custom powders and dispersions of particles in liquids and polymers, as well as electrodes cast on metal foil.

NEI offers a variety of battery materials, with a particular forte in producing specialty materials with compositions and particle morphologies that are not commonplace. In addition, NEI has expertise in producing composite particles that have a surface coating. Off-the-shelf products are sold under the tradename NANOMYTE®.

“We want our customers to easily access high quality and consistent battery materials so they can focus on their core mission,” said Dr. Ganesh Skandan, CEO of NEI Corporation. “The NEI team stands ready, willing, and able to produce and supply materials that our customers want, in any quantity needed, for them to pursue their commercialization efforts.”

Particle Size Distribution graph of Na0.44MnO2+x , which is typical of most of NEI's sodium based cathode/anode powders

Particle size distribution (PSD) of Na0.44MnO2+x , which is typical of most of NEI’s sodium based cathode/anode powders.

NEI has been routinely supplying increasing quantities of simple metal oxide compositions such as Na0.44MnO2+x and Na0.7MnO2+x with a narrow particle size distribution. The portfolio of sodium-ion compositions now includes more complex materials, such as sodium iron phosphate (NaFePO4), sodium nickel phosphate (NaNiPO4), sodium titanium phosphate (NaTi2(PO4)3), sodium chromium oxide (NaCrO2), and others. The average aggregate particle size (D50) for most compositions can be tailored to be in the range of 1 – 2 µm, with the primary particles being much smaller. The particle structure can be further tuned to include a surface coating of carbon or a conducting polymer, such as polyaniline, PANI, or an ionically conducting ceramic material. Some of the materials have been tested and validated in-house using half-cell configuration (i.e., sodium metal anode). For example, Na0.44MnO2+x has a second cycle charge and discharge capacity that is > 105 mAh/g.

Second cycle charge/discharge profile of Na0.44MnO2+x cathode powder

In addition to engineering the particle morphology, all sodium-based cathode and anode materials can be supplied as cast electrodes on a current collector of choice. Customers can specify the active material, binder content, amount of conducting carbon and active material per unit area (in case of cathode and anode).

NEI Corporation has built a reputation for supplying consistent and high-quality solid electrolyte materials – oxide materials, such as Al-doped lithium lanthanum zirconium oxide (LLZO) and tantalum-doped LLZO (LLZTO), phosphate compounds, such as LATP or LAGP, and a variety of sulfide-based materials. While the average particle size (D50) for these standard powders is in the 3 – 5 microns range, customers can request a smaller D50.

Cole-Cole plot of sintered LAGP pellet

Cole-Cole plot of sintered LAGP pellet

The ionic conductivity of the oxide materials, measured in-house using Electrochemical Impedance Spectroscopy in a test cell shown in the inset of the picture (left), is in the range of 1 x 10-4 S/cm to 5 x 10-4 S/cm, and that of sulfides can be as high as 1 x 10-3 S/cm.

A recent and exciting development has been the offering of composite solid electrolyte materials in the form of either a polymer-based dispersion or cast membrane. Customers can choose any oxide ceramic solid electrolyte and a base polymer or co-polymer from PEO, PVDF, PVDF-HFP, and PAN. The type of lithium salt in the polymer can be selected from LiTFSI, LiClO4, LiFSI, and LiBOB.

In addition to increasing the suite of materials being offered, NEI has developed new materials synthesis capabilities, which serve as demonstration stations for exploring new compositions that are difficult to produce using conventional processing. A case in point is precursor materials obtained from recovered nickel, cobalt and manganese salts from recycled lithium-ion batteries. The solution-precipitation setup, installed at NEI, serves as a test-bed to determine processing parameters for materials such as NMC532 and NMC622, or any mixed metal oxide for that matter.

There is also increasing interest in cathode materials that are fluorinated and/or contain vanadium, which as multiple valence states and can lead to high capacities. To this end, NEI has produced LiFeSO4F and LiVPO4F with a high degree of crystallinity and phase purity.

Overall, the introduction of these new materials and processes will provide new capabilities to lithium battery developers and manufacturers to enable practical solid-state batteries. Dr. Skandan adds, “It is exciting for the team at NEI to tread on uncharted waters and explore synthesis and processing of new materials, and particularly using newly developed processes. We welcome the opportunity to serve the needs of the Battery community.”

Download Press Release (pdf) ↓

About NEI: Founded in 1997, NEI develops, manufactures, and sells advanced materials for a broad range of industrial customers around the world. The company’s core competencies are in designing, developing, and producing products that meet the specific application needs of its customers. More importantly, NEI is a solutions provider, working closely with customers to produce and implement materials for their applications. NEI’s products, which are sold under the registered trademark NANOMYTE®, are backed by a suite of issued and pending patents. NEI’s products include:  Lithium-ion Battery Materials, Na-ion Battery Materials, Functional & Protective Coatings, and Specialty Nanoparticle-based products. NEI also offers associated materials characterization and testing services.

For more information, give us a call or email us.

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