Significant Enhancement of Optoelectronic Properties in CuInP₂S₆ via Pressure-Induced Structural Phase Transition

Abstract: Quaternary layered transition metal thiophosphate CuInP2S6 (CIPS) has attracted extensive research interest because of its outstanding optical and ferroelectric properties. Pressure-tuned phase transition is an efficient method to regulate the properties of functional materials in situ, yet there is still much to explore. Herein, we studied the pressure-regulated optoelectronic properties of CIPS and found a four-stage evolution of photoresponsivity under compression. The photoresponse of CIPS barely changes w… Show more

“…Pressure, as a fundamental thermodynamic parameter, has been viewed as an effective means to regulate the physical and chemical properties of materials without introducing impurities. − Based on the pressure strategy, extensive research studies on the fundamental properties of materials have been reported, including pressure-induced phase transition, metallization, and pressure-enhanced photoluminescence, superconductivity, and photocurrents. − It has been reported that the optical properties of ZnSiP 2 can be significantly regulated by external pressure, as well as an emergent superconductivity occurs at 24.6 GPa . Lattice dynamical calculations indicated that ZnSnP 2 undergoes an order–disorder transition at around 6.5 GPa .…”

Significant Pressure-Enhanced Photoelectric Properties and Extended Spectral Response Range in Zn-Based Chalcopyrite ZnGeP₂

“…Pressure, as a fundamental thermodynamic parameter, has been viewed as an effective means to regulate the physical and chemical properties of materials without introducing impurities. − Based on the pressure strategy, extensive research studies on the fundamental properties of materials have been reported, including pressure-induced phase transition, metallization, and pressure-enhanced photoluminescence, superconductivity, and photocurrents. − It has been reported that the optical properties of ZnSiP 2 can be significantly regulated by external pressure, as well as an emergent superconductivity occurs at 24.6 GPa . Lattice dynamical calculations indicated that ZnSnP 2 undergoes an order–disorder transition at around 6.5 GPa .…”

Significant Pressure-Enhanced Photoelectric Properties and Extended Spectral Response Range in Zn-Based Chalcopyrite ZnGeP₂

First-principles calculations to investigate structural, electronic, and optical properties of AgWO4 and PdWO4 tungstate materials for optoelectronic applications

Pressure-enhanced optoelectronic properties in the two-dimensional metal phosphorus trichalcogenide semiconductor SnPSe₃