Risen Energy said its HJT Hyper-ion modules have captured international attention since their debut in July 2023, emerging as a favored choice in overseas markets.
With remarkable advancements in module power, efficiency, and eco-friendliness, these modules have garnered widespread acclaim, leading to their export to nearly 40 countries and regions worldwide, with a cumulative shipment volume surpassing 3GW.
A key factor driving the success of Risen Energy’s Hyper-ion modules lies in the company’s commitment to innovation. Through pioneering research and development efforts, Risen Energy has established an integrated R&D model for HJT technology, covering silicon materials to module production. This approach has enabled Risen Energy to achieve several industry firsts, including mass-producing HJT products with zero Busbar, ultra-thin silicon wafers, minimal silver consumption, and stress-free Hyper-Link interconnection technology. As a result, the average efficiency of Risen Energy’s HJT Hyper-ion solar cells exceeds 25.8 percent, with module power exceeding 715Wp, a testament to the company’s dedication to continuous improvement.
In light of the growing global emphasis on carbon reduction, there is a heightened demand for renewable energy solutions with lower Levelized Cost of Energy (LCOE) and reduced carbon footprint. HJT technology, known for its superior conversion efficiency and electricity generation capabilities among single-junction technologies, aligns well with this trend.
Its low carbon footprint attributes make it a preferred choice for markets emphasizing low LCOE and reduced carbon emissions. Furthermore, the HJT cell structure’s compatibility with tandem cells, particularly with perovskite, underscores its potential for further technological advancements and widespread adoption.
Risen Energy’s involvement in initiatives like the Belt and Road Initiative has not only expanded the reach of its Hyper-ion modules to diverse markets but also underscores its commitment to advancing the global green economy.