Zuoming Jin scite author profile

Organic–inorganic perovskites face the issues of being vulnerable to oxygen and moisture and the trap sites located at the surface and grain boundaries. Integration of two-dimensional (2D) perovskites as a capping layer is an effective route to enhance both photovoltaic efficiency and environmental stability of the three-dimensional (3D) underlayer. Here, we employ 1,4-butanediammonium diiodide (BDADI), which has a short chain length and diammonium cations, to construct a 3D/2D stacking perovskite solar cells (PSCs). The introduction of BDA2+ could passivate surface defects in 3D perovskites by forming 2D Dion–Jacobson (DJ) phase perovskites and effectively suppressing nonradiative recombination, thus resulting in a longer carrier lifetime. The DJ 2D capping layer also regulate the energy level arrangement, enabling a better charge extraction and transport process. In addition, the water-resistance ability of 3D perovskite gets improved because of the hydrophobic characteristic of 1,4-butanediammonium cations. Consequently, the 3D/2D stacking PSCs yield an energy conversion efficiency of 20.32% in company with the enhanced long-term stability.

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Defect passivation and electrical conductivity enhancement in perovskite solar cells using functionalized graphene quantum dots

Rui

Jin

Fan

et al. 2022

Mater. Futures

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Organic-inorganic halide perovskites have been intensively investigated as potential photovoltaic materials due to their exceptional optoelectronic properties and their successful applications in the perovskite solar cells (PSCs). However, a large number of defect states still exist in the PSCs so far and are detrimental to their power conversion efficiencies (PCEs) and stability. Here, an effective strategy of incorporating single-crystalline graphene quantum dots (GQDs) into the perovskite films is proposed to passivate the defect states. Intriguingly, the GQD-modified perovskite films exhibit purer phase structure, higher quality of the morphology, and higher electrical conductivity when compared with the control perovskite films. All of the advantages caused by the incorporation of the GQDs lead to fast carrier separation and transport, long carrier lifetime, and low nonradiative recombination in the PSCs based on the GQD-modified perovskite films. As a result, this kind of new PSC displays an increase in all photovoltaic parameters, and its PCE shows an enhancement of more than 20% when compared with the control PSC. Moreover, this novel PSC is demonstrated to be good long-term stability and resistibility against heat and moisture. Our findings provide an insight to passivate the defect states and enhance the electrical conductivities in the perovskites and pave the way for their further exploration to achieve higher photovoltaic performances.

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Boosted charge extraction of SnO2 nanorod arrays via nanostructural and surface chemical engineering for efficient and stable perovskite solar cells

Rui

Wang

et al. 2023

Applied Surface Science

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Dual passivation of SnO2/Perovskite heterogeneous interfacial defects for efficient perovskite solar cells

Rui

Wang

et al. 2023

Solar Energy Materials and Solar Cells

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Confinement of MACl guest in 2D ZIF-8 triggers interface and bulk passivation for efficient and UV-stable perovskite solar cells

Jin

et al. 2023

J. Mater. Chem. C

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Zuoming Jin

Interfacial Modification via a 1,4-Butanediamine-Based 2D Capping Layer for Perovskite Solar Cells with Enhanced Stability and Efficiency

Defect passivation and electrical conductivity enhancement in perovskite solar cells using functionalized graphene quantum dots

Boosted charge extraction of SnO2 nanorod arrays via nanostructural and surface chemical engineering for efficient and stable perovskite solar cells

Dual passivation of SnO2/Perovskite heterogeneous interfacial defects for efficient perovskite solar cells

Confinement of MACl guest in 2D ZIF-8 triggers interface and bulk passivation for efficient and UV-stable perovskite solar cells

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