The Correct Assignment of Vibrationally-Resolved Absorption Spectra of Protonated Anthracene Isomers.

Spectrochimica Acta Part A Molecular and Biomolecular Spectroscopy（2020）

Luoyang Normal Univ | KTH Royal Inst Technol

Cited 4|Views16

Abstract

The assignment of experimental optical absorption spectra of protonated anthracene has been under debate for years. It is complicated by the presence of rich vibronic spectral features and the possible co-occurrence of two isomers, 9H-An+ and 1H-An+. In this study, the vibrationally resolved absorption spectra of 9H-An+ and 1H-An+ have been calculated using time-dependent density functional theory. The calculated vibronic spectra profiles of 9H-An+ and 1H-An+ are in excellent agreement with the corresponding experimental results and provide unambiguously spectra assignments. It shows that the previously reported assignments based on vertical excitation energy are largely wrong. The onset located at 493.8 nm of the experimental spectrum can be assigned to the S0 → S1 transition of 9H-An+, while the origin band located at 453.5 nm corresponds to the S0 → S2 transition of 1H-An+.

Translated text

Key words

Density functional theory,Vibronic spectra,Spectral assignment,Theoretical study

Bibtex

AI Read Science

AI Summary

AI Summary is the key point extracted automatically understanding the full text of the paper, including the background, methods, results, conclusions, icons and other key content, so that you can get the outline of the paper at a glance.

Example

Background

Key content

Introduction

Methods

Results

Related work

Fund

Key content

Pretraining has recently greatly promoted the development of natural language processing (NLP)
We show that M6 outperforms the baselines in multimodal downstream tasks, and the large M6 with 10 parameters can reach a better performance
We propose a method called M6 that is able to process information of multiple modalities and perform both single-modal and cross-modal understanding and generation
The model is scaled to large model with 10 billion parameters with sophisticated deployment, and the 10 -parameter M6-large is the largest pretrained model in Chinese
Experimental results show that our proposed M6 outperforms the baseline in a number of downstream tasks concerning both single modality and multiple modalities We will continue the pretraining of extremely large models by increasing data to explore the limit of its performance

Try using models to generate summary,it takes about 60s

Must-Reading Tree

Example

Generate MRT to find the research sequence of this paper