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The optimal laser selection balances wavelength characteristics, pulse duration effects, and production economics—with hybrid systems increasingly emerging as the preferred solution for commercial perovskite manufacturing. Lecheng's flexible architectures empower manufacturers to customize laser parameters for specific process requirements while maintaining scalability.

Laser scribing emerges as the definitive solution for perovskite production by combining unparalleled precision, manufacturing scalability, and process flexibility - positioning Lecheng's technology at the forefront of the solar industry's transition to next-generation photovoltaics.

Lecheng’s comprehensive approach—combining high-speed multi-beam processing, intelligent automation, and adaptable laser technologies—positions the company as a key enabler of high-throughput perovskite manufacturing. By addressing both scalability and precision, Lecheng helps solar producers lower costs while pushing the boundaries of cell efficiency.

Beam splitting technology is the cornerstone of high-speed, precision perovskite production, bridging the gap between laboratory innovation and industrial gigawatt manufacturing. By enabling parallel processing, enhancing material compatibility, and reducing operational costs, it positions companies like Lecheng at the forefront of the solar energy transition.

High-precision perovskite laser scribing equipment for advanced solar cell manufacturing, ensuring accurate patterning and superior efficiency in laser machining

Lecheng Intelligent's client-centric approach to process tuning represents a paradigm shift in advanced manufacturing—where equipment suppliers act as innovation partners rather than mere vendors. By combining deep technical expertise with hands-on collaboration, Lecheng accelerates the adoption of new materials while ensuring optimal performance and reliability, ultimately driving progress toward a more sustainable future.

The transition to renewable energy is accelerating, and perovskite solar cells (PSCs) stand at the forefront of next-generation photovoltaic technology due to their high efficiency potential and low-cost manufacturing. However, a significant bottleneck has been the scalable and precise patterning of large-area modules to ensure high performance and longevity.

In the manufacturing of thin-film solar cells, such as perovskite cells, laser scribing (P1, P2, P3) and edge cleaning (P4) are critical processes that directly impact cell efficiency and production yield. Multi-beam synchronous processing technology stands as a pivotal innovation for enhancing manufacturing efficiency. LeCheng Intelligent, a leader in this field, achieves high-precision, high-throughput processing of large-area panels through advanced optical design, sophisticated motion control, and deep process integration.

In July 2024, Yangzhou hosted the 7th Global Perovskite & Tandem Cell (Yangtze River Delta) Industrialization Forum, a pivotal summit gathering global experts, investors, and industry leaders to address “Breaking Industrialization Bottlenecks, Building a New Energy Future.” As a leading Chinese supplier of perovskite laser equipment, Lechen Intelligence stood out, winning the “2024 Most Influential Perovskite Laser Equipment Enterprise” award. Its CEO, He Le, delivered a keynote speech highlighting breakthroughs in laser technology, showcasing China’s strength in high-end new energy equipment.

YANGZHOU, Nov. 23 — At 20:18 tonight, Dehu Perovskite Research Institute's 100MW pilot production platform (1.2m×0.6m substrate) achieved first-light milestone in its Yangzhou industrial park. This breakthrough, 22 days ahead of schedule, marks a quantum leap in perovskite industrialization.