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Lecheng’s multi-beam synchronized processing represents more than a technical upgrade—it’s a paradigm shift in solar manufacturing. By combining unprecedented speed with sub-micron precision, the technology empowers manufacturers to meet global clean energy demands while driving down costs, setting a new standard for the industry’s future.

Lecheng’s laser edge-cleaning system exemplifies how precision manufacturing technologies can transform solar energy economics. By ensuring flawless insulation at microscopic scales, it unlocks higher efficiency, reliability, and yield—bringing perovskite solar power closer to mainstream adoption.

The Multichannel Photovoltaic (PV) Module Steady-State Testing System series (MCT series) is an advanced high-throughput platform designed for evaluating the performance and stability of perovskite, tandem, and crystalline silicon PV modules. By integrating optical, electrical, thermal, and software technologies, the system enables simultaneous testing of multiple modules under controlled conditions, accelerating R&D and quality control processes.

As consumer electronics continue to evolve toward thinner, lighter, and more miniaturized designs, the demand for ultra-precise and efficient manufacturing processeshas never been greater. Laser drilling technologyhas emerged as a critical enabler in this transformation, allowing manufacturers to create micro-sized holesin materials like PCBs, glass, and flexible substrateswith unprecedented accuracy.

Perovskite solar modules (PSMs) have emerged as a promising photovoltaic technology due to their high efficiency and low manufacturing costs. However, the commercialization of PSMs faces significant challenges in achieving precise and reliable laser scribing processes for series interconnection. The laser scribing quality directly impacts the geometric fill factor (GFF), series resistance, and ultimate conversion efficiency of solar modules. This article systematically examines the monitoring techniques and quality control strategies for P1, P2, and P3 laser scribing processes that are essential for improving production yield in industrial manufacturing.

Key Innovations: Record Flexibility: 0.1–0.2mm thickness, ≤5mm bending radius, survives 100k bends with <5% efficiency loss High Efficiency: 33% theoretical efficiency for single-junction, 45%+ for tandem cells — surpassing silicon’s 27% ceiling Roll-to-Roll Production: Simplified manufacturing cuts costs by 40% vs. silicon, with 30–70% customizable transparency

On March 3, 2025, Transsion’s brand Infinix showcased two cutting-edge concept technologies at MWC 2025: SolarEnergy-Reserving Technology: Perovskite solar-charging system for smartphones. E-Color Shift 2.0: AI-driven color-shifting e-paper phone.

X-ray direct detectors are increasingly vital in medical diagnostics due to their high energy resolution and system integration. In recent years, metal-free halide perovskites (MFPs) have gained attention for their structural tunability and biocompatibility. However, existing devices often require high operating voltages to enhance carrier utilization efficiency, which can cause crystal damage and ion migration, limiting their applications.