Background

Perovskite solar cells, all-perovskite tandem cells and tandem cells composed of perovskite with HJT, TOPCon or XBC technologies are highly promising next-generation photovoltaic technologies that are expected to make solar power the cheapest form of electricity in history. The main challenges facing perovskite technology include further improving the efficiency of commercial-sized cells, ensuring long-term stability, enhancing manufacturing yield at scale, and refining tandem cell technologies.

Universities and research institutions globally and in China are actively engaged in perovskite technology R&D, with leading Chinese perovskite companies advancing industrialization at full speed. Academic research and industrial progress in perovskite technology exhibit deep synergy and mutual reinforcement. Breakthroughs in academia provide the theoretical foundation for industrialization, significantly improving material stability and device efficiency, while industrial demands drive academic research to focus on solving practical problems, offering application scenarios for translating research achievements.

With advantages like high efficiency and lightweight flexibility, perovskite solar cells are being rapidly adopted across multiple fields. In consumer electronics, they can extend cell life for devices like smartphones and watches. The construction industry leverages their customizable properties to develop transparent photovoltaic facades and roof tiles, advancing green building initiatives. New energy vehicles are testing perovskite solar roofs to provide auxiliary power for onboard systems. Public infrastructure such as streetlights and bus stops in cities are also adopting perovskite technology to reduce operational costs. In agriculture, they are used in greenhouses and irrigation systems. Currently, perovskite cells are accelerating commercialization through improved manufacturing processes and enhanced stability.

On the industrialization front, companies like GCL, Microquanta, UtmoLight and Renshine have made breakthrough progress. Perovskite enterprises in the Pearl River Delta region are also gaining strong momentum. In August 2024, Photon Crystal Energy established the Greater Bay Area's first 100MW perovskite solar cell pilot line. In November, Mellow Energy completed a 100MW perovskite photovoltaic module production line in Zhuhai. In December, SolaEon 1200cm² perovskite module topped NREL's world record chart for conversion efficiency. In February 2025, Hiking PV began construction of a 250MW TOPCon-perovskite tandem cell production line in Zhongshan.

Perovskite Solar Cell Application and Industrialization (Greater Bay Area) Forum 2025 will be held on July 10-11 in Shenzhen, Guangdong, China. The conference will explore prospects for the photovoltaic industry and perovskite tandem cell technologies, materials and manufacturing processes for large-scale industrial production, integration solutions for flexible perovskite in wearables and consumer electronics, innovative BIPV applications, solar roofs for new energy vehicles, strategies to improve conversion efficiency and stability, as well as field studies and reliability analysis of perovskite power plants. This conference will provide ZOOM Global Online Participation and simultaneous interpretation in Chinese and English.

Topics

1. Photovoltaic Industry Outlook and Prospects of Perovskite & Tandem Cell Technologies

2. Latest Academic and Research Advancements in Perovskite Solar Cells Globally and in China

3. Laboratory Fabrication Processes and Efficiency Enhancement of Perovskite Photovoltaic Devices

4. Key Industrialization Technologies for Perovskite Cells: Thin-Film Preparation, Laser Patterning, and Encapsulation

5. Technical Routes and Supply Capacity of Conductive Glass for Perovskite Solar Cells

6. Large-Area Industrial Manufacturing Processes and Automation for Perovskite Cells

7. Application Validation of Perovskite Modules in Special Environments

8. Cost Reduction Pathways for Perovskite Cells and Critical Equipment Selection

9. Material Systems, Interface Passivation, and Defect Control in Perovskite Solar Cells

10. Research Progress on Layer-Specific Materials for Perovskite Cells

11. Competitiveness Analysis and Power Generation Potential of All-Perovskite Tandem Solar Cells

12. Conversion Efficiency Improvement and Long-Term Stability Studies of Perovskite Solar Cells

13. In-Depth Characterization and Simulation of Optoelectronic Properties in Perovskite Solar Cells

14. Structural Design and Integrated Manufacturing Processes for Perovskite Tandem Solar Cells

15. Empirical Research and Reliability Analysis of Perovskite Photovoltaic Power Plants

16. R&D and Industrialization of Flexible Perovskite Solar Cell Technologies

17. Innovative Applications of Flexible Perovskite Cells in Mobile Electronics

18. Exploration of Perovskite Photovoltaics in New Energy Vehicle Applications

19. Practical Applications of Perovskite Technology in Smart Cities

20. BIPV Market Potential and Application Prospects for Perovskite Solar Cells

Program

July 9

17:00-20:00  Pre-conference Registration 

July 10

08:30-12:30  Speech

12:30-14:00  Networking Lunch

14:00-18:30  Speech

18:30-20:00  Banquet

July 11

10:30-12:00  Visit the world's first fully wet 100MW perovskite pilot line of Photon Crystal Energy