Porphyrin Bridged SnO2/Active layer for Efficient and Stable Inverted Organic Solar Cells
Key Points
The aim is to enhance both the efficiency and stability of inverted organic solar cells by modifying the electron transport layers.
Designed and synthesized a porphyrin-bridged SnO2 active layer
Investigated the interface modification techniques
Analyzed the impact on solar cell performance
Demonstrated an increase in solar cell efficiency
Improved stability under operational conditions
Highlighted the effectiveness of interface modifications
Abstract
Interface modification of the electron transport layers (ETLs) is crucial to simultaneously enhance the efficiency and stability of inverted organic solar cells. In this work, we design and synthesize a...
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Porphyrin Bridged SnO2/Active layer for Efficient and Stable Inverted Organic Solar Cells | Synapse