Longpan Technology Announces Ten New Energy Technologies; Dry-Process Electrode Materials Fill Domestic Gap

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(Source: Securities Times)

On March 21, LOPAL DAY 2026, the second Longpan Technology Global New Technology Launch Conference, was held in Nanjing. Following the release of four forward-looking technologies last year, Longpan Technology focused on launching ten industry-leading innovative technologies in fields such as lithium batteries, hydrogen energy, and new energy chemicals. Several of these achievements have entered industrialization and customer validation stages, quickly moving from labs to production lines and landing in end products.

Dry electrode technology is regarded by the industry as a key to next-generation batteries. Currently, Tesla has overcome critical technical bottlenecks in lithium battery manufacturing and successfully achieved large-scale production of dry electrode processes. Against this backdrop, market demand for high-performance dry electrode lithium iron phosphate cathode materials is increasing. At this conference, Changzhou Liyuan, a subsidiary of Longpan Technology, announced the second-generation dry electrode lithium iron phosphate cathode material DRY201, filling a domestic technological gap in this field. This product features high packing density, high charge/discharge capacity, high rate performance, and also boasts high crush strength capable of withstanding 9T pressure, more uniform spherical particles, and better flowability—fully meeting dry electrode needs and helping customers achieve breakthroughs in both cost and performance.

Additionally, Changzhou Liyuan launched the fifth-generation high-density lithium iron phosphate cathode material S601. This product uses advanced technologies such as specialized particle coating and carbon coating modification, achieving a powder compaction density of 2.7 g/cm³. It offers higher packing density, greater discharge capacity and energy efficiency, improved cycle life, and fast-charging compatibility, redefining industry performance standards. It provides core support for the range, safety, and lifespan of new energy vehicles and energy storage systems, further consolidating Liyuan’s leading position in the high-density lithium iron phosphate sector.

In the field of thermal management for new energy, Longpan New Materials released the “Protective Core Shield” fourth-generation low-conductivity coolant. To develop this new technology, Longpan New Materials underwent over 1,000 formula optimizations, more than 10,000 multidimensional corrosion tests, and over 5,000 hours of stability assessments. The “Protective Core Shield” coolant offers comprehensive corrosion resistance, achieving breakthroughs in ultra-low electrical conductivity and excellent thermal management performance, fully meeting the higher safety standards of EV power systems. Its long-lasting stability redefines vehicle thermal safety boundaries, helping to upgrade the reliability and lifespan of new energy vehicles.

With the rapid development of AI technology, the world is entering an era of explosive computing power. Large AI models, high-performance computing, and massive data centers are posing unprecedented challenges to thermal management technology. In response, Dike Chemical announced the second-generation data center cooling liquid at this conference, solving the challenge of efficient cooling for large-scale data centers and supporting stable AI computing operations. Currently, this product has been included in Huawei’s “Deployable Liquid Cooling Requirements for Computing Cluster Hardware” certification list.

Furthermore, Longpan Times announced the breakthrough of the third-generation high-purity lithium carbonate refining process, ensuring higher purity for improved cathode material performance; Changzhou Liyuan’s second-generation high-density manganese iron lithium phosphate cathode material achieved better energy density through advanced sintering techniques, creating a new advantage in parallel technical routes; the second-generation recycled lithium iron phosphate technology has been fully upgraded for higher recovery efficiency, lower processing costs, and performance close to raw materials, establishing a closed-loop cycle system for retired batteries. In the hydrogen energy sector, Platinum Source Catalysts launched the third-generation fuel cell catalysts and second-generation water electrolysis hydrogen production catalysts, seizing the opportunity presented by the recent release of national hydrogen energy pilot policies, strengthening core material competitiveness in hydrogen energy, and accelerating industrialization. Longpan New Materials’ fifth-generation automotive glass cleaning technology showcases meticulous innovation, emphasizing Longpan’s commitment to user health and vehicle safety.

From cathode material innovation to thermal management breakthroughs, from core hydrogen energy materials to resource recycling, Longpan Technology covers key segments of the energy, automotive, and AI industries through comprehensive innovation, deeply integrating into the global new energy industry reshaping wave.

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