Driven by the global energy structure transformation and the "dual carbon" goals, battery technology is evolving from a traditional electricity storage medium into a core engine reshaping transportation, consumer electronics, and even the energy internet. From fundamental breakthroughs in materials science to the industrialisation of cutting-edge technologies such as solid-state and sodium-ion batteries, the battery industry is in a period of explosive technological advancement with fierce competition.
This conference brings together the world's top scholars, industry chain leaders, and capital forces, aiming to break down barriers between "industry, academia, research, and application." We will delve into key topics such as high energy density, ultimate safety, ultra-fast charging technology, and recycling, jointly charting a new blueprint for green, efficient, and sustainable energy.Nayuan Advanced Materials Technology (Wuxi) Co., Ltd. will attend this grand event to discuss industry development trends with industry peers and jointly drive battery technology to new heights.
Clickto register now, and together witness and participate in this extraordinary and far-reaching industry event, creating a brilliant new chapter!
Core Supplier of Sodium-Ion Battery Cathode Materials
Nayuan Advanced Materials Technology (Wuxi) Co., Ltd., located in Wuxi, Jiangsu Province, was founded by a team of German-returnee PhDs with years of deep experience in the battery industry. It is a national-level high-tech enterprise specialising in the R&D, production, and sales of sodium-ion battery cathode materials, while also providing clients with full-battery solutions covering the entire sodium-ion battery "materials-cell-terminal" chain.
The company has over 10 master's and doctoral degree holders and a technical team of approximately 30 people. It has filed 25 patents (9 granted), participated in the formulation of 3 industry standards, and published 3 papers in top journals such as Chem Soc Rev.
As a leading supplier of polyanion NFS cathode materials for sodium-ion batteries and sodium-ion battery cathode material additives, the company holds industry-leading advantages in modified polyanion sodium iron sulphate (NFS) cathode materials and various types of sodium-ion battery cathode material additives. It has been included in the qualified supplier catalogues of several publicly listed firms and has completed large-scale mass production and supply.
Product application scenarios encompass light electric vehicle power batteries, start-stop batteries, household ESS, distributed ESS, and more, meeting users' core demands for safety, long lifespan, and low cost.
Product Business
Sodium-Ion Cathode Materials
Focused on the R&D and mass production of NFS (sodium iron sulphate) cathode materials, the company has pioneered a sulphate dual-phase composite technology, adopting a "soft-hard combination + scaffold-building" strategy to achieve lithium battery-grade processability, with a compaction density of 2.7 g/cm³ and 3.7V high-voltage performance. It effectively suppresses gas generation in battery cells and significantly improves cycling stability under high-temperature and high-voltage conditions, perfectly compatible with next-generation anode-free sodium-ion battery systems. Energy density can reach 220 Wh/kg; for anode-free all-solid-state sodium-ion batteries, energy density can reach 320 Wh/kg.
Full Battery Cell Design
Material selection, formulation optimisation, and cell structure design — full-process services. Ensuring that material advantages are fully released at the end-user level, shortening development cycles, and reducing trial-and-error costs.
Commercial Cells & PACK Products
Targeting power, energy storage, start-stop power supply, and other scenarios, providing mature PACK solutions. No need to build an in-house battery development team — enabling rapid product deployment and commercialisation.
Sodium-Ion and Lithium Battery Material Recycling
Building a "materials-battery-recycling" industry closed loop. Efficiently extracting valuable metals from end-of-life batteries to provide secondary resources for production and promote green recycling.
Long Press
2026 SMM Battery Technology Conference
