紫外激发的2-硝基苯酚的超快真空紫外光发射研究

Ultra-Fast-VUV Photoemission Study of UV Excited 2-Nitrophenol.

作者信息

Ciavardini Alessandra, Coreno Marcello, Callegari Carlo, Spezzani Carlo, De Ninno Giovanni, Ressel Barbara, Grazioli Cesare, de Simone Monica, Kivimäki Antti, Miotti Paolo, Frassetto Fabio, Poletto Luca, Puglia Carla, Fornarini Simonetta, Pezzella Marco, Bodo Enrico, Piccirillo Susanna

机构信息

Dipartimento di Chimica e Tecnologie del Farmaco , Università di Roma "La Sapienza" , Ple A. Moro, 5 , 00185 Rome , Italy.

Dipartimento di Scienze e Tecnologie Chimiche , Università di Roma "Tor Vergata" , Via della Ricerca Scientifica , 00133 Rome , Italy.

出版信息

J Phys Chem A. 2019 Feb 21;123(7):1295-1302. doi: 10.1021/acs.jpca.8b10136. Epub 2019 Feb 8.

DOI:10.1021/acs.jpca.8b10136

PMID:30668129

Abstract

The initial deactivation pathways of gaseous 2-nitrophenol excited at 268 nm were investigated by time-resolved photoelectron spectroscopy (TRPES) with femtosecond-VUV light, produced by a monochromatized high harmonic generation source. TRPES allowed us to obtain new, valuable experimental information about the ultrafast excited-state dynamics of 2-nitrophenol in the gas phase. In accord with recent ab initio on-the-fly nonadiabatic molecular dynamic simulations, our results validate the occurrence of an ultrafast intersystem crossing leading to an intermediate state that decays on a subpicosecond time scale with a branched mechanisms. Two decay pathways are experimentally observed. One probably involves proton transfer, leading to the most stable triplet aci-form of 2-nitrophenol; the second pathway may involve OH rotation. We propose that following intersystem crossing, an ultrafast fragmentation channel leading to OH or HONO loss could also be operative.

摘要

利用单色高次谐波产生源产生的飞秒真空紫外光，通过时间分辨光电子能谱（TRPES）研究了在268 nm激发的气态2-硝基苯酚的初始失活途径。TRPES使我们能够获得有关气相中2-硝基苯酚超快激发态动力学的新的有价值的实验信息。与最近的从头算实时非绝热分子动力学模拟一致，我们的结果验证了超快系间窜越的发生，该窜越导致一种中间态，该中间态通过分支机制在亚皮秒时间尺度上衰减。实验观察到两种衰减途径。一种可能涉及质子转移，导致2-硝基苯酚最稳定的三重态酸式异构体；第二种途径可能涉及OH旋转。我们提出，在系间窜越之后，导致OH或HONO损失的超快碎片化通道也可能起作用。

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紫外激发的2-硝基苯酚的超快真空紫外光发射研究

Ultra-Fast-VUV Photoemission Study of UV Excited 2-Nitrophenol.

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