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      저자 : Vanacken, Johan (검색결과 1 건)
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      • Giant Electron-Phonon Coupling and Deep Conduction Band Resonance in Metal Halide Double Perovskite

        Steele, Julian A.,Puech, Pascal,Keshavarz, Masoumeh,Yang, Ruoxi,Banerjee, Subhasree,Debroye, Elke,Kim, Cheol Woong,Yuan, Haifeng,Heo, Nam Ho,Vanacken, Johan,Walsh, Aron,Hofkens, Johan,Roeffaers, Maart American Chemical Society 2018 ACS NANO Vol.12 No.8

        <P>The room-temperature charge carrier mobility and excitation-emission properties of metal halide perovskites are governed by their electronic band structures and intrinsic lattice phonon scattering mechanisms. Establishing how charge carriers interact within this scenario will have far-reaching consequences for developing high-efficiency materials for optoelectronic applications. Herein we evaluate the charge carrier scattering properties and conduction band environment of the double perovskite Cs<SUB>2</SUB>AgBiBr<SUB>6</SUB><I>via</I> a combinatorial approach; single crystal X-ray diffraction, optical excitation and temperature-dependent emission spectroscopy, resonant and nonresonant Raman scattering, further supported by first-principles calculations. We identify deep conduction band energy levels and that scattering from longitudinal optical phonons-<I>via</I> the Fröhlich interaction-dominates electron scattering at room temperature, manifesting within the nominally nonresonant Raman spectrum as multiphonon processes up to the fourth order. A Fröhlich coupling constant nearing 230 meV is inferred from a temperature-dependent emission line width analysis and is found to be extremely large compared to popular lead halide perovskites (between 40 and 60 meV), highlighting the fundamentally different nature of the two “single” and “double” perovskite materials branches.</P> [FIG OMISSION]</BR>

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