As the demand for high-efficiency solar energy continues to rise, the challenge of reproducibly fabricating high-quality perovskite films remains a major bottleneck. Now, researchers from East China University of Science and Technology, led by Professor Shuang Yang and Professor Yu Hou, have presented a breakthrough strategy using supramolecule-confined growth to achieve ultraflat, electronically homogeneous perovskite films. This work offers a transformative approach to enhance the reproducibility and performance of perovskite solar cells.
Why Supramolecule Confinement Matters
Innovative Design and Features
Applications and Future Outlook
Challenges and Opportunities
The study highlights the importance of interfacial engineering in perovskite film formation. Future research will focus on expanding the library of supramolecular capping agents and optimizing their integration into scalable manufacturing processes.
This comprehensive study provides a materials-level solution to the reproducibility challenge in perovskite solar cells, offering a scalable, low-cost, and high-performance pathway for next-generation photovoltaics. Stay tuned for more groundbreaking work from Professor Shuang Yang and Professor Yu Hou at ECUST!
Nano-Micro Letters
Experimental study
Reproducible Fabrication of Perovskite Photovoltaics via Supramolecule Confinement Growth
15-Sep-2025