通过极紫外时间分辨光电子能谱观察胸腺嘧啶中的超快系间窜越

Observation of Ultrafast Intersystem Crossing in Thymine by Extreme Ultraviolet Time-Resolved Photoelectron Spectroscopy.

作者信息

Wolf Thomas J A, Parrish Robert M, Myhre Rolf H, Martínez Todd J, Koch Henrik, Gühr Markus

机构信息

Stanford PULSE Institute , SLAC National Accelerator Laboratory , Menlo Park , California 94025 , United States.

Department of Chemistry , Stanford University , Stanford , California 94305 , United States.

出版信息

J Phys Chem A. 2019 Aug 15;123(32):6897-6903. doi: 10.1021/acs.jpca.9b05573. Epub 2019 Jul 31.

DOI:10.1021/acs.jpca.9b05573

PMID:31319031

Abstract

We studied the photoinduced ultrafast relaxation dynamics of the nucleobase thymine using gas-phase time-resolved photoelectron spectroscopy. By employing extreme ultraviolet pulses from high harmonic generation for photoionization, we substantially extend our spectral observation window with respect to previous studies. This enables us to follow relaxation of the excited state population all the way to low-lying electronic states including the ground state. In thymine, we observe relaxation from the optically bright ππ* state of thymine to a dark nπ* state within 80 ± 30 fs. The nπ* state relaxes further within 3.5 ± 0.3 ps to a low-lying electronic state. By comparison with quantum chemical simulations, we can unambiguously assign its spectroscopic signature to the ππ* state. Hence, our study draws a comprehensive picture of the relaxation mechanism of thymine including ultrafast intersystem crossing to the triplet manifold.

摘要

我们使用气相时间分辨光电子能谱研究了核碱基胸腺嘧啶的光致超快弛豫动力学。通过采用高次谐波产生的极紫外脉冲进行光电离，相对于之前的研究，我们大幅扩展了光谱观测窗口。这使我们能够追踪激发态粒子一直弛豫到包括基态在内的低电子态。在胸腺嘧啶中，我们观察到胸腺嘧啶从光学明亮的ππ态在80±30飞秒内弛豫到暗的nπ态。nπ态在3.5±0.3皮秒内进一步弛豫到一个低电子态。通过与量子化学模拟比较，我们可以明确地将其光谱特征归属于ππ态。因此，我们的研究描绘了胸腺嘧啶弛豫机制的全貌，包括超快系间窜越到三重态。

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通过极紫外时间分辨光电子能谱观察胸腺嘧啶中的超快系间窜越

Observation of Ultrafast Intersystem Crossing in Thymine by Extreme Ultraviolet Time-Resolved Photoelectron Spectroscopy.

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