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Excellent carrier transport property of hybrid perovskites under high pressures

Excellent carrier transport property of hybrid perovskites under high pressures
Graphical abstract. Credit: DOI: 10.1021/acsenergylett.1c02359

In perovskite optoelectronic devices, the carrier mobility (or diffusivity) and diffusion length are fundamental properties that determine performance.

However, limited by the small working space in a diamond anvil cell and the inside pressure transmitting media, the measurements of charge mobility and diffusion length in a diamond anvil cell are challenging by using traditional electrical techniques.

Recently, a research group led by Prof. Jin Shengye from the Dalian Institute of Chemical Physics (DICP) of the Chinese Academy of Sciences (CAS) revealed excellent carrier transport property of hybrid perovskites under high pressures.

This study was published in ACS Energy Letters on Dec. 8.

By combining time-resolved and PL-scanned imaging microscopy with a diamond anvil cell apparatus, the researchers in situ measured the photoinduced carrier transport in MAPbI3 perovskite microcrystals under high pressure up to 5.7 GPa, when the perovskites retained single crystal phase.

They found that the MAPbI3 microcrystals exhibited tetragonal-to-cubic phase transition at 0.3–0.4 GPa and isostructural phase transition at about 3 GPa as the pressure increased.

Moreover, through the direct examination of carrier transport dynamics in a diamond anvil cell, the researchers discovered that the diffusion coefficient of perovskites showed an increase by more than 30% when the pressure was over 0.4 GPa. Combining the corresponding carrier lifetimes, they found the carrier diffusion length (LD) was from 5 to 8 um under different pressures.

This study suggested that the MAPbI3 perovskites could sustain their excellent carrier transport properties under pressure treatment, even though the pressure could cause significant structural defects to the crystal.

“This work sheds light on the influence of pressure on the carrier transport in MAPbI3 perovskites and paves the way for the utilization of compression to tune or optimize the optoelectronic properties of perovskites,” said Prof. Jin.


Ultrafast exciton dissociation mechanism in 2D perovskites


More information:
Yanfeng Yin et al, Excellent Carrier Transport Property of Hybrid Perovskites Sustained under High Pressures, ACS Energy Letters (2021). DOI: 10.1021/acsenergylett.1c02359

Provided by
Chinese Academy of Sciences


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Excellent carrier transport property of hybrid perovskites under high pressures (2021, December 15)
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