LONGi Tops Wood Mackenzie's Global Solar PV Module Manufacturer Ranking, Earns "Grade A" Highest Rating

XI'AN, China, June 24, 2026 /PRNewswire/ -- On June 2, Wood Mackenzie, one of the world's most authoritative energy consultancies, officially released its 2026 Global Solar PV Module Manufacturer Ranking (based on 2025 operational data) and Supplier Qualification Program results. Driven by its leading technological innovation and deep global market recognition, LONGi claimed the No. 1 position among 48 manufacturers from 10 countries, while simultaneously achieving the highest "Grade A" rating in the Supplier Qualification Program.

Behind this achievement lies Wood Mackenzie's exceptionally rigorous evaluation framework. The assessment spans ten core dimensions, including capacity utilization, technology maturity, financial health, supply chain resilience, ESG, reliability standards, and R&D investment – regarded by major global investors and financial institutions as a credit-grade benchmark for procurement and financing decisions.

Notably, Wood Mackenzie's Grade A rating is the highest level in its Supplier Qualification Program, providing an independent reference for procurement teams, project developers, and asset owners. Manufacturers must meet at least five benchmark criteria established by Wood Mackenzie, which reflect best practices among leading global suppliers. LONGi's achievement of the Grade A rating means it has reached the industry's pinnacle in risk resilience, long-term reliability, and technology leadership – according to Wood Mackenzie's assessment methodology, LONGi is recognized as a low-risk, high-reliability strategic partner worthy of global market trust.

Yana Hryshko, Head of Solar Supply Chain Research at Wood Mackenzie, noted: "Chinese manufacturers continue to lead globally on manufacturing scale, technology advancement and operational efficiency." Among the top ten manufacturers, nine are headquartered in China, further consolidating the country's continued dominance across the global solar supply chain. As a frontrunner among them, LONGi's No. 1 ranking once again proves that sustained technological innovation is the decisive force shaping the competitive landscape – and the source of that force lies in LONGi's dual leadership in both R&D and mass production.

LONGi's independently developed HIBC solar cell, certified by Germany's Institute for Solar Energy Research Hamelin (ISFH), achieved a record-breaking 28.13% conversion efficiency for single-crystalline silicon cells. Meanwhile, in the April 2026 edition of TaiyangNews' commercial module efficiency rankings, LONGi's EcoLife series – built on HIBC technology – claimed the top spot with a mass production efficiency of 25%. With record-breaking advances in the lab and reliable value delivery at scale, LONGi's BC technology is reshaping the technology benchmark of the module market through a powerful dual engine.

Technological heights ultimately translate into product breadth. Centered on safety, reliability, ultimate efficiency, and pure black aesthetics, LONGi's BC technology has formed a comprehensive, all-scenario BC product portfolio. The company has taken the lead in developing and launching functional products such as anti-dust, anti-glare, lightweight, and specialized fire-resistant modules, as well as scenario-specific modules designed for extreme environments including sandy and barren land, offshore applications, and hail‑prone regions. LONGi's differentiated product matrix built around BC technology is enabling users across different scenarios and with diverse needs to benefit from this leading technology.

Customer-value-driven technological innovation is translating into the market competitiveness to navigate industry cycles. Being ranked No. 1 in Wood Mackenzie's global ranking and earning the Grade A Supplier Qualification reaffirms a simple yet profound truth: in an era of growing uncertainty, commitment to technological innovation is the most reliable strategic anchor – and the very foundation for earning the enduring trust of global customers.

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LONGi Tops Wood Mackenzie's Global Solar PV Module Manufacturer Ranking, Earns "Grade A" Highest Rating

COPENHAGEN, Denmark and SINGAPORE, June 24, 2026 /PRNewswire/ -- ATLANT 3D, the A*STAR Institute of Materials Research and Engineering (A*STAR IMRE), and the National Additive Manufacturing Innovation Cluster (NAMIC), a national platform hosted by A*STAR, have signed a Memorandum of Understanding (MoU) to collaborate on the establishment of an Advanced Materials Development Hub ("A-HUB") in Singapore.

The partnership aims to combine ATLANT 3D's proprietary Direct Atomic Layer Processing (DALP®) technology with A*STAR IMRE's materials engineering expertise and NAMIC's additive manufacturing and ecosystem development capabilities. The parties will explore applications in AI-driven materials discovery for advanced packaging, silicon photonics, and semiconductor manufacturing.

A-HUB Singapore is intended to support high-throughput materials synthesis, autonomous materials discovery, and accelerated technology development, enable novel innovation projects with industry partners, and strengthen Singapore's sovereign advanced manufacturing infrastructure and materials innovation ecosystem.

"Singapore is a global front-runner in the industrial-scale adoption of advanced materials and next-gen manufacturing technologies," said Dr. Maksym Plakhotnyuk, CEO & Founder of ATLANT 3D. "By combining ATLANT 3D's DALP® technology with A*STAR IMRE's world-class materials expertise and NAMIC's innovation ecosystem, we will create the world's first high-throughput materials innovation foundry for advanced applications in semiconductors, silicon photonics, and advanced packaging technologies."

"Through this collaboration with ATLANT 3D, we are bringing cutting-edge atomic layer processing capabilities into our materials development workflow, enabling us to accelerate the discovery and optimisation of functional thin film materials," said Prof. Loh Xian Jun, Executive Director of A*STAR IMRE. "Combining ATLANT 3D's expertise in advanced deposition technology with A*STAR IMRE's deep materials science capabilities and world-class characterisation infrastructure strengthens our ability to translate research into practical outcomes for Singapore's advanced manufacturing industry."

"The next frontier for humanity will require breakthroughs in materials with superior properties enabled by digital closed-loop additive processes," said Dr. Ho Chaw Sing, Chief Executive Officer of NAMIC and Executive Director of A*STAR Science and Engineering Research Council. "A-HUB envisions to be a shared platform bringing research, industry and ecosystem partners closer together to accelerate super-materials from lab to factory floor, strengthening Singapore's position as a global hub in next-generation materials and advanced manufacturing."

For the full press release, please click here: https://atlant3d.com/atlant3d-astar-namic/ 

Learn more about ATLANT 3D at www.atlant3d.com.

Learn more about Agency for Science, Technology and Research (A*STAR) at www.a-star.edu.sg.

Learn more about NAMIC at https://namic.sg. 

 

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ATLANT 3D, A*STAR IMRE and NAMIC Sign MoU to Advance AI-Driven Materials Discovery in Singapore