材料科学
激光阈值
铁电性
白光
光电子学
光学
物理
波长
电介质
作者
Alina Szukalska,Jakub Karcz,Jakub Herman,Damian Pociecha,Ewa Górecka,Przemysław Kula,Jarosław Myśliwiec
标识
DOI:10.1002/adma.202511648
摘要
Abstract Nematic Liquid Crystals (LCs), noted for their simple molecular alignment and broad use in optoelectronics, remain unmodified for over a century. However, in 2017, a unique polar phase, the ferroelectric nematic (N F ), is confirmed. Subsequently, in 2024, the revolutionary spontaneous mirror symmetry breaking of ferroelectric twist‐bend nematic chiral structures (N TBF phase) is demonstrated. Nematic LCs are commonly used as optically active matrices for luminescent dyes, allowing the fine‐tuning of emission properties through external fields. In this manuscript, the pioneering temperature‐tunable lasing studies utilizing commercial dyes doped into a mixture that displays the N TBF phase within an exceptionally low‐temperature range of 34–43.3 °C are shown. The subsequent experiments explore how lasing characteristics within N TBF and N F phases can be employed in a single, compact device to produce multicolor and white lasers. Furthermore, there are introduced spontaneously formed emissive fibers from the N TBF phase. As perspectives, the voltage‐dependent increase of lasing intensity in N F is demonstrated, showing the exceptional result in two differently arranged LC cells. The findings highlight that simple molecules, like those in nature and living organisms, can shape intricate systems with significant implications for the accelerated progress of laser and display technologies, along with Li‐Fi concepts.
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