Keqiang Chen scite author profile

Cubic phase CsPbI 3 (α-CsPbI 3 ) perovskite quantum dots (QDs) have received extensive attention due to their all-inorganic composition and suitable band gap (1.73 eV). However, α-CsPbI 3 QDs might convert to δ-CsPbI 3 (orthorhombic phase with indirect band gap of 2.82 eV) due to easy loss of surface ligands. In addition, commonly used long-chain ligands (oleic acid, OA, and oleylamine, OLA) hinder efficient charge transport in optoelectronic devices. In order to relieve these drawbacks, OA, OLA, octanoic acid, and octylamine are used as capping ligands for synthesizing high-quality α-CsPbI 3 QDs. The results indicate that these QDs exhibit excellent optical properties and long-term stability compared to QDs capped only with OA and OLA. Moreover, QDs with shorter ligands exhibit an enhanced charge transport rate, which improves the power conversion efficiency of photovoltaic devices from 7.76% to 11.87%. obtained a solar cell based on C8/C18-CsPbI 3 QDs with a PCE of 11.87%. The PCE produced by this solar cell is much higher than that of devices based on C18-CsPbI 3 QDs (7.76%).

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Keqiang Chen

Toll-like receptors in inflammation, infection and cancer

Short‐Chain Ligand‐Passivated Stable α‐CsPbI₃ Quantum Dot for All‐Inorganic Perovskite Solar Cells

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Keqiang Chen

Toll-like receptors in inflammation, infection and cancer

Short‐Chain Ligand‐Passivated Stable α‐CsPbI3 Quantum Dot for All‐Inorganic Perovskite Solar Cells

Contact Info

Product

Resources

About

Short‐Chain Ligand‐Passivated Stable α‐CsPbI₃ Quantum Dot for All‐Inorganic Perovskite Solar Cells