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An Aggregation‐Suppressed Polymer Blending Strategy Enables High‐Performance Organic and Quantum Dot Hybrid Solar Cells

Junwei Liu, Jiawei Qiao, Kangkang Zhou, Jingjing Wang, Ruohua Gui, Kaihu Xian, Mengyuan Gao, Hang Yin, Xiaotao Hao, Zhihua Zhou, Long Ye

2022Small38 citationsDOI

Abstract

Solution-processing hybrid solar cells with organics and colloidal quantum dots (CQDs) have drawn substantial attention in the past decade. Nevertheless, hybrid solar cells based on the recently developed directly synthesized CQD inks are still unexplored. Herein, a facile polymer blending strategy is put forward to enable directly synthesized CQD/polymer hybrid solar cells with a champion efficiency of 13%, taking advantage of the conjugated polymer blends with finely optimized aggregation behaviors. The spectroscopic and electrical investigations on carrier transport and recombination indicate that polymer blends can endow fast carrier transport and less recombination over the single counterparts. Moreover, the blending strategy offers a "dilution effect" for top-notch photovoltaic polymers with excessively strong aggregation tendency, resulting in moderate feature domain size and surface roughness, which afford fast hole transport and therefore high photovoltaic performance. The effectiveness of this strategy is successfully validated using two pairs of photovoltaic polymers. Accordingly, the relationships between polymer morphology, carrier transport, and photovoltaic performance are established to advance the progress of CQD/polymer hybrid solar cells. Such progress stresses that the utilization of aggregation-suppressed polymer blends is a facile approach toward the fabrication of high-efficiency organic-inorganic hybrid solar cells.

Topics & Concepts

Materials sciencePhotovoltaic systemPolymerHybrid solar cellPolymer solar cellQuantum dotNanotechnologyFabricationOptoelectronicsComposite materialPathologyMedicineBiologyEcologyAlternative medicinePerovskite Materials and ApplicationsOrganic Electronics and PhotovoltaicsQuantum Dots Synthesis And Properties