Niu Jia-Xin, Pan Cheng-Da, Liu Yi-Ting, Lou Shi-Tao, Wu E, Wu Bo-Tao, Zhang Xiao-Lei, Jin Qing-Yuan
Opt Express. 2018 Feb 5;26(3):3489-3496. doi: 10.1364/OE.26.003489.
We investigate the fluorescence from submonolayer porphyrin molecules near silver-polymer core-shell nanoparticles (NPs) at a well-controlled separation distance of about 1 nm - 5 nm. When porphyrin molecules are deposited on silver NPs with the plasmonic resonance peak at about 410 nm, which matches very closely with the 405-nm excitation laser and the absorption band of porphyrin molecules, their emission intensity is found to be enhanced due to the plasmonic resonant excitation enhancement, and shows a decline as the increasing polymer shell thickness. Meanwhile, the lifetime results demonstrate that there exists the fluorescence quenching due to the charge transfer and nonradiative energy transfer losses, which is also the main reason that the maximum enhancement factor obtained in experiment is only about 2.3, although the theoretical one is above 60 according to the electric field distribution near silver NPs calculated by finite-difference time-domain method.
我们研究了在约1纳米至5纳米的精确控制的分离距离下,亚单层卟啉分子在银-聚合物核壳纳米颗粒(NPs)附近的荧光。当卟啉分子沉积在等离子体共振峰位于约410纳米的银纳米颗粒上时,该共振峰与405纳米的激发激光以及卟啉分子的吸收带非常匹配,结果发现它们的发射强度由于等离子体共振激发增强而增强,并且随着聚合物壳层厚度的增加而下降。同时,寿命结果表明,由于电荷转移和非辐射能量转移损失存在荧光猝灭,这也是实验中获得的最大增强因子仅约为2.3的主要原因,尽管根据有限时域差分法计算的银纳米颗粒附近的电场分布,理论增强因子高于60。
