Giant Nonlinear Optical Response in Triple Cation Halide Mixed Perovskite Films

The versatility of perovskites through chemical composition modification is critical for enhancing performance of a range of potential applications such as light emitters and integrated photovoltaics. However, a systematic study on the nonlinear optical (NLO) responses of these perovskites is still...

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Veröffentlicht in:	Advanced optical materials 2020-04, Vol.8 (7), p.n/a
Hauptverfasser:	Syed, Hamad, Kong, Wenchi, Mottamchetty, Venkatesh, Lee, Kwang Jin, Yu, Weili, Soma, Venugopal Rao, Yang, Jianjun, Guo, Chunlei
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Sprache:	eng
Schlagworte:	anti‐Stokes process Cations Chemical composition Emitters Energy gap Materials science Multiphoton absorption nonlinear optical properties Nonlinear optics Nonlinear response Optical switching Optics Performance enhancement perovskite films Perovskites Photon absorption Photovoltaic cells three‐photon absorption triple‐cation mixed halide perovskites
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description	The versatility of perovskites through chemical composition modification is critical for enhancing performance of a range of potential applications such as light emitters and integrated photovoltaics. However, a systematic study on the nonlinear optical (NLO) responses of these perovskites is still lacking. Here, for the first time, the NLO properties of triple cation mixed halide perovskite (TCMHP) films, (Cs0.06FA0.79MA0.15)Pb (I0.85Br0.15)3, using Z‐scan and time‐resolved spectroscopy, are investigated. It is found that TCMHP film shows strong saturable absorption at 395 nm, reverse saturable absorption such as two‐ and three‐photon absorption (2PA, 3PA) at 790 nm (near the bandgap), and 3PA at 1200 nm. The 3PA phenomena at 790 nm are attributed to the phonon‐assisted anti‐Stokes process. The 2PA and 3PA coefficients are estimated to be ≈2.1 cm MW−1 and ≈900 cm3 GW−2, respectively, which are an order of magnitude larger than those of MAPbI3 and other perovskites. Moreover, it is demonstrated that these giant 2PA and 3PA coefficients of TCMHP can be used to realize optical stabilization. The observed strong multiphoton absorption response will enable TCMHP materials to be suitable for various nonlinear optical applications such as multiphoton‐based imaging, optical modulator, and all‐optical switching devices. The results that large three‐photon absorption (3PA) process in triple cation mixed halide perovskite (TCMHP) is obtained at resonance condition based on phonon‐assisted anti‐Stokes process are new findings in the field of perovskites. The effect of giant 2PA/3PA of TCMHP film has led to cutting down the noise and stabilized the laser pulse.
doi_str_mv	10.1002/adom.201901766
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However, a systematic study on the nonlinear optical (NLO) responses of these perovskites is still lacking. Here, for the first time, the NLO properties of triple cation mixed halide perovskite (TCMHP) films, (Cs0.06FA0.79MA0.15)Pb (I0.85Br0.15)3, using Z‐scan and time‐resolved spectroscopy, are investigated. It is found that TCMHP film shows strong saturable absorption at 395 nm, reverse saturable absorption such as two‐ and three‐photon absorption (2PA, 3PA) at 790 nm (near the bandgap), and 3PA at 1200 nm. The 3PA phenomena at 790 nm are attributed to the phonon‐assisted anti‐Stokes process. The 2PA and 3PA coefficients are estimated to be ≈2.1 cm MW−1 and ≈900 cm3 GW−2, respectively, which are an order of magnitude larger than those of MAPbI3 and other perovskites. Moreover, it is demonstrated that these giant 2PA and 3PA coefficients of TCMHP can be used to realize optical stabilization. The observed strong multiphoton absorption response will enable TCMHP materials to be suitable for various nonlinear optical applications such as multiphoton‐based imaging, optical modulator, and all‐optical switching devices. The results that large three‐photon absorption (3PA) process in triple cation mixed halide perovskite (TCMHP) is obtained at resonance condition based on phonon‐assisted anti‐Stokes process are new findings in the field of perovskites. 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However, a systematic study on the nonlinear optical (NLO) responses of these perovskites is still lacking. Here, for the first time, the NLO properties of triple cation mixed halide perovskite (TCMHP) films, (Cs0.06FA0.79MA0.15)Pb (I0.85Br0.15)3, using Z‐scan and time‐resolved spectroscopy, are investigated. It is found that TCMHP film shows strong saturable absorption at 395 nm, reverse saturable absorption such as two‐ and three‐photon absorption (2PA, 3PA) at 790 nm (near the bandgap), and 3PA at 1200 nm. The 3PA phenomena at 790 nm are attributed to the phonon‐assisted anti‐Stokes process. The 2PA and 3PA coefficients are estimated to be ≈2.1 cm MW−1 and ≈900 cm3 GW−2, respectively, which are an order of magnitude larger than those of MAPbI3 and other perovskites. Moreover, it is demonstrated that these giant 2PA and 3PA coefficients of TCMHP can be used to realize optical stabilization. The observed strong multiphoton absorption response will enable TCMHP materials to be suitable for various nonlinear optical applications such as multiphoton‐based imaging, optical modulator, and all‐optical switching devices. The results that large three‐photon absorption (3PA) process in triple cation mixed halide perovskite (TCMHP) is obtained at resonance condition based on phonon‐assisted anti‐Stokes process are new findings in the field of perovskites. 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subjects	anti‐Stokes process Cations Chemical composition Emitters Energy gap Materials science Multiphoton absorption nonlinear optical properties Nonlinear optics Nonlinear response Optical switching Optics Performance enhancement perovskite films Perovskites Photon absorption Photovoltaic cells three‐photon absorption triple‐cation mixed halide perovskites
title	Giant Nonlinear Optical Response in Triple Cation Halide Mixed Perovskite Films
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