Recently, Puhler Nano has reached an important cooperation with a well-known solid-state battery material manufacturer in Taiwan. Under the agreement, Puhler will provide it with two advanced pilot production lines and supporting equipment to jointly drive the innovation of R&D and production of solid-state battery materials.
Moving Forward Together to Empower Solid-State Battery Material Innovation
The Taiwanese customer partnering with Puhler Nano this time is a key technological innovator in the global solid-state battery material sector. Boasting a top-tier R&D team and a robust portfolio of core technology patents, the company has achieved breakthrough results in solid-state battery material research and development, with its product performance indicators leading the industry.
This collaboration focuses on breakthroughs in the key processes of solid-state battery materials, covering the two core stages of lithium oxide-electrolyte grinding and carbon material-conductive slurry grinding. It will effectively address the challenge of interfacial compatibility between solid electrolytes and electrode materials, providing the industry with more stable and efficient material process prototypes to advance the mass production of solid-state batteries. At the same time, it fully demonstrates Puhler Nano's full-chain technical strength in lithium battery material equipment, from solution design to equipment realization.
Innovative Solutions Overcome Core Technical Challenges
For the two key projects in this collaboration, Puhler Nano has provided customized grinding solutions equipped with a cutting-edge process control system. This ensures the reading and monitoring of all data during equipment operation, facilitating the precise transfer of experimental data to industrial production for the enterprise.
In the lithium oxide-electrolyte grinding project, Puhler Nano's developed KDP Experimental Star Nano Grinder will play a central role in addressing common industry challenges such as poor interfacial compatibility and uneven dispersion between lithium oxide and electrolyte materials in solid-state batteries.
The equipment adopts a unique grinding chamber structure and a precision temperature control system, enabling:
Nano-level fine grinding to ensure a uniform particle size distribution of materials;
Fully enclosed and pollution-free grinding to prevent moisture and impurities from affecting material performance;
Precise temperature control to guarantee material stability and consistent quality.
These features significantly enhance the interfacial compatibility between solid electrolytes and electrode materials, laying a solid material foundation for the preparation of high-performance solid-state batteries.
In addition, for the carbon material-conductive slurry grinding project, Puhler Nano has provided a combined solution of the PMK Dual Planetary Vacuum Power Mixer and the PHN Pin-Type Nano Grinder. This combination effectively addresses the technical bottlenecks of high dispersion difficulty and poor stability in conductive slurries for solid-state batteries, significantly enhancing the rate performance and cycling stability of the batteries.
Global Vision, Strengthening Industry Collaboration
As a leading global supplier of nano-grinding technology and equipment, Puhler Nano has accumulated over a decade of technical expertise in new energy battery materials. Serving industry leaders across lithium iron phosphate, ternary lithium, and solid-state battery sectors, its business spans major markets in Europe, the Americas, Africa, and Southeast Asia. This technical collaboration with a prominent Taiwanese solid-state battery material enterprise further validates the competitiveness and reliability of Puhler’s equipment in the international market.
Looking ahead, Puhler Nano will continue to focus on core process innovation and industrialization of advanced battery materials, accelerating customer validation and mass production. The company is committed to supporting the global energy transition and contributing to greener, more efficient future energy solutions.
