Open Science Repository – Primary Research Data Hub

Primary Research Data Hub is Atomfair LLC’s open science repository for original, company-owned research, testing, and technical analysis. This hub brings together primary datasets, electrochemical evaluations, materials-performance studies, and applied engineering insights generated through Atomfair’s own research programs.

We are beginning with advanced battery systems because batteries sit at the center of today’s materials, energy, and manufacturing challenges. The current repository focuses on high-voltage sodium-ion and lithium-ion systems, electrolyte and interphase stability, dry electrode processing, silicon-carbon anodes, high-nickel cathodes, LCO, LMR, NFPP, Prussian Blue materials, pouch-cell cycling, cycle-life tradeoffs, and practical limits observed in real testing environments.

This is only the starting point. Atomfair is building this repository as a long-term open science initiative: a growing technical library where our proprietary research, test results, and analysis can help researchers, engineers, institutions, and industry teams evaluate materials more transparently and accelerate scientific progress. As our work expands, the repository will grow beyond batteries into broader advanced materials, energy systems, equipment data, and applied laboratory science.

Next-Gen Battery Insights | 11: 460 Wh/kg Industrial Benchmark—Electrolyte Evolution in 4.6V High-Voltage NCM811-Li Systems

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Technical evaluation of 4.6V NCM811-lithium metal pouch cells at 24 mg/cm² loading, showing how perfluorinated electrolytes stabilize CEI and SEI behavior.

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Next-Gen Battery Insights | 12: Reshaping the 3C King—Stability Breakthroughs in 4.5V Ultra-High Voltage LCO

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Technical analysis of 4.5V ultra-high-voltage LCO full cells, covering cycle stability, electrolyte and CEI effects, and practical benchmarks for LCO-Gr research.

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Next-Gen Battery Insights | 13: Leading the 3C Race—Performance Breakthroughs in 4.5V LCO and 560 Si-C Systems

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Technical evaluation of 4.5V LCO with a 560 mAh/g silicon-carbon composite anode, covering cycling stability, electrolyte effects, and 3C cell design tradeoffs.

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