Synthesis and parallel optoelectronic study of eight (Sb,Bi)(S,Se)(Br,I) chalcohalides shows tunable bandgaps from 1.38 to 2.08 eV and links phonon structure to reduced non-radiative recombination via solid-solution engineering.
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cond-mat.mtrl-sci 2years
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Spectroscopic measurements on selenium thin films indicate that structural disorder is processing-dependent rather than intrinsic and correlates with reduced carrier lifetime and open-circuit voltage in photovoltaic applications.
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Parallel Exploration of the Optoelectronic Properties of (Sb,Bi)(S,Se)(Br,I) Chalcohalides
Synthesis and parallel optoelectronic study of eight (Sb,Bi)(S,Se)(Br,I) chalcohalides shows tunable bandgaps from 1.38 to 2.08 eV and links phonon structure to reduced non-radiative recombination via solid-solution engineering.
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Spectroscopic Signatures of Structural Disorder and Electron-Phonon Interactions in Trigonal Selenium Thin Films for Solar Energy Harvesting
Spectroscopic measurements on selenium thin films indicate that structural disorder is processing-dependent rather than intrinsic and correlates with reduced carrier lifetime and open-circuit voltage in photovoltaic applications.