Mack John, Kubheka Gugu, May Aviwe, Ngoy Bokolombe P, Nyokong Tebello
Institute of Nanotechnology Innovation, Rhodes University, Makhanda 6140, South Africa.
Département de Chimie, Université de Kinshasa, B.P. 190 KIN XI, Democratic Republic of the Congo.
Dalton Trans. 2024 Nov 12;53(44):17766-17771. doi: 10.1039/d4dt02505a.
Since 2017, the Institute for Nanotechnology Innovation at Rhodes University has studied the optical limiting properties of boron dipyrromethene (BODIPY) dyes with respect to high-intensity nanosecond timescale laser pulses. Concerns over the irresponsible use of laser pointers in the context of aviation safety have provided a need for materials that can readily transmit light under ambient conditions while rapidly attenuating intense incident laser pulses. The structural flexibility of the BODIPY chromophore facilitates the red shift of the main BODIPY spectral band that typically lies at 500 nm to the red end of the visible and the near-infrared through the introduction of vinylene groups at the 3,5-positions or an aza-nitrogen atom. Research carried out in this context is described, and possible future directions are discussed.
自2017年以来,罗兹大学的纳米技术创新研究所研究了硼二吡咯亚甲基(BODIPY)染料在高强度纳秒级激光脉冲方面的光限幅特性。在航空安全背景下,对激光指示器的不当使用引发了人们的担忧,这就需要一种材料,它能够在环境条件下轻松透光,同时迅速衰减强烈的入射激光脉冲。BODIPY发色团的结构灵活性有助于通过在3,5位引入亚乙烯基或氮杂氮原子,使通常位于500 nm的BODIPY主光谱带红移至可见光和近红外的红色端。本文描述了在此背景下开展的研究,并讨论了未来可能的发展方向。
