New Energy
Rare Earth – The “Core Catalyst” of New Energy Technology
Rare earth elements, due to their unique electronic structure and catalytic/magnetic properties, have become key materials for breaking through technical bottlenecks in the field of new energy. The full range of compounds provided by DeepCeLa , including rare earth oxides, rare earth phosphates, and rare earth fluorides, are widely used in core links such as lithium-ion batteries, fuel cells, permanent magnet motors, photovoltaic power generation, and hydrogen storage, providing underlying material support for enhancing energy density, extending lifespan, and reducing costs.
Rare earth compounds drive the new energy revolution – DeepCeLaTM facilitates the efficient conversion and storage of clean energy
The Application Of Rare Earths In The Industry Of New Energy
Rare Earth Oxide
- Lanthanum Oxide(La₂O₃):Solid electrolyte additives: Enhance the ionic conductivity of solid electrolytes in lithium-ion batteries and reduce interface impedance; Fuel cell cathode coating: Enhances the activity of oxygen reduction reactions and extends the catalyst’s lifespan.
Rare Earth Phosphate
- Lithium Iron phosphate (LiFePO4) doped with cerium (Ce) : Ce³⁺ doping increases the diffusion rate of lithium ions and enhances the battery’s cycle life.
- Yttrium phosphate (YPO4) : Proton exchange membrane enhancer: Used for hydrogen fuel cell membrane electrodes to enhance acid resistance and mechanical strength.
Rare Earth Fluoride
- Lanthanum Fluoride (LaF₃) : Solid-state electrolyte interface layer: Inhibits lithium dendrite growth and enhances the safety of solid-state batteries.
- Europium Fluoride (EuF₃) : Anti-reflection coating for photovoltaic glass: Reduces light scattering loss and enhances the conversion efficiency of solar modules.
Rare Earth Chloride
- Praseodymium Chloride (PrCl₃) : Activator for magnesium-based hydrogen storage materials: Reduces the adsorption/desorption temperature of hydrogen and accelerates the application of hydrogen energy storage.
Rare Earth Carbonates
- Lanthanum Carbonate (La₂(CO₃)₃) : Modification of lithium-sulfur battery separator: Adsorbs polysulfides, inhibits the “shuttle effect”, and enhances the battery capacity retention rate.
Rare Earth nitrate
- Cerium Nitrate(Ce(NO₃)₃) : Catalyst for hydrogen production through water electrolysis: Preparation of cerium-based nano-catalysts to reduce the oxygen evolution reaction.
Our Services:
From green power to zero-carbon transportation, rare earth compounds are reshaping the global energy landscape. DeepCeLaTM, with its full industrial chain collaborative R&D capabilities and strict quality control system, provides one-stop solutions from material synthesis to application verification for new energy enterprises, working hand in hand with customers towards a carbon-neutral future.
Our Advantage
The Xiamen Rare Earth Science and Technology Innovation Center and the Baotou Rare Earth High-tech Zone Industrial Base have established a three-level system of “basic research (Xiamen) – engineering transformation (pilot platform) – large-scale manufacturing (Baotou)”, reducing the technology transformation cycle by 40%.
Agile development mechanism and modular product library: Based on the three major platforms of nano-rare earth oxides, high-purity compounds, and functionalized salts, over 100 derivative materials can be quickly combined, covering special crystal form control (such as cubic cerium oxide), surface functional modification, and other requirements. Value-added service extension: Provide application simulation testing (such as catalytic performance prediction), competitive product benchmarking analysis, and patent layout consultation to help customers reduce trial-and-error costs
Led by top experts: The chief scientist is the project leader of the Xiamen Rare Earth Materials Research Center of the Chinese Academy of Sciences. The core members include experts from various fields such as materials science, biomedicine, new energy materials, and ecological environment. DeepCeLa “is not just a material supplier; it is also an innovation partner in the industry.”
Advanced production techniques and compliance with the ISO 9001 quality control system provide customers with more competitive products and solutions. The products comply with the EU REACH and ROHS regulations and are sold both at home and abroad.
Products
Gathering top researchers in rare earth industry, we provide customized services for the production of nano and high-purity rare earths, and complete a rapid response from development and research to mass production.
We have collaborated with DeepCeLa to develop new catalytic materials, whose innovation capabilities far exceed expectations. Whether it is a small batch of experimental-grade samples or joint patent applications, they all demonstrate the vision and responsibility of top international brands.
DeepCeLa, relying on a national-level scientific research team and an intelligent production base, focuses on the research and development, production and global supply of nano-rare earth oxides, high-purity rare earth oxides, rare earth compounds and customized rare earth materials, and is committed to providing core material solutions for the following industries: New energy, biomedicine, photoelectric technology, chemical, ceramics and glass, ecological, agriculture, and metal.