Development and application of ultrafast circular dichroism spectroscopy techniques

Tong Cui; Menghui Jia; Peicong Wu; Ke Hu; Xueli Wang; Sanjun Zhang; Haifeng Pan; Jinquan Chen

doi:10.1063/1674-0068/cjcp2403041

Development and application of ultrafast circular dichroism spectroscopy techniques

Tong Cui, Menghui Jia, Peicong Wu, Ke Hu, Xueli Wang, Sanjun Zhang, Haifeng Pan, Jinquan Chen

Institute for Advanced Study in Precision Spectroscopy

Research output: Contribution to journal › Review article › peer-review

Abstract

Chirality hold broad applications in life sciences, quantum devices, and various other areas. Traditionally, molecular chirality can be characterized by using steady-state circular dichroism spectroscopy. However, the techniques that can characterize excited state chirality are progressively capturing the public interest as it can provide the dynamic information for chirality generation and transfer. In this review, we focus on the theoretical background and the developmental history of femtosecond time-resolved circular dichroism spectroscopy (TR-CD) techniques around the world. Additionally, we provide examples to showcase the utility of these techniques in the analysis of the dynamical molecular chemical structures, the investigation of molecular chirality generation, and the detection of electron spin dynamics in semiconductor quantum dots.

Original language	English
Pages (from-to)	449-460
Number of pages	12
Journal	Chinese Journal of Chemical Physics
Volume	37
Issue number	4
DOIs	https://doi.org/10.1063/1674-0068/cjcp2403041
State	Published - 1 Aug 2024

Keywords

Chiral spectra
Excited state chirality
Femtosecond time-resolved circular dichroism spectroscopy
Ultrafast dynamics

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10.1063/1674-0068/cjcp2403041

Cite this

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title = "Development and application of ultrafast circular dichroism spectroscopy techniques",

abstract = "Chirality hold broad applications in life sciences, quantum devices, and various other areas. Traditionally, molecular chirality can be characterized by using steady-state circular dichroism spectroscopy. However, the techniques that can characterize excited state chirality are progressively capturing the public interest as it can provide the dynamic information for chirality generation and transfer. In this review, we focus on the theoretical background and the developmental history of femtosecond time-resolved circular dichroism spectroscopy (TR-CD) techniques around the world. Additionally, we provide examples to showcase the utility of these techniques in the analysis of the dynamical molecular chemical structures, the investigation of molecular chirality generation, and the detection of electron spin dynamics in semiconductor quantum dots.",

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author = "Tong Cui and Menghui Jia and Peicong Wu and Ke Hu and Xueli Wang and Sanjun Zhang and Haifeng Pan and Jinquan Chen",

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TY - JOUR

T1 - Development and application of ultrafast circular dichroism spectroscopy techniques

AU - Cui, Tong

AU - Jia, Menghui

AU - Wu, Peicong

AU - Hu, Ke

AU - Wang, Xueli

AU - Zhang, Sanjun

AU - Pan, Haifeng

AU - Chen, Jinquan

PY - 2024/8/1

Y1 - 2024/8/1

N2 - Chirality hold broad applications in life sciences, quantum devices, and various other areas. Traditionally, molecular chirality can be characterized by using steady-state circular dichroism spectroscopy. However, the techniques that can characterize excited state chirality are progressively capturing the public interest as it can provide the dynamic information for chirality generation and transfer. In this review, we focus on the theoretical background and the developmental history of femtosecond time-resolved circular dichroism spectroscopy (TR-CD) techniques around the world. Additionally, we provide examples to showcase the utility of these techniques in the analysis of the dynamical molecular chemical structures, the investigation of molecular chirality generation, and the detection of electron spin dynamics in semiconductor quantum dots.

AB - Chirality hold broad applications in life sciences, quantum devices, and various other areas. Traditionally, molecular chirality can be characterized by using steady-state circular dichroism spectroscopy. However, the techniques that can characterize excited state chirality are progressively capturing the public interest as it can provide the dynamic information for chirality generation and transfer. In this review, we focus on the theoretical background and the developmental history of femtosecond time-resolved circular dichroism spectroscopy (TR-CD) techniques around the world. Additionally, we provide examples to showcase the utility of these techniques in the analysis of the dynamical molecular chemical structures, the investigation of molecular chirality generation, and the detection of electron spin dynamics in semiconductor quantum dots.

KW - Chiral spectra

KW - Excited state chirality

KW - Femtosecond time-resolved circular dichroism spectroscopy

KW - Ultrafast dynamics

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DO - 10.1063/1674-0068/cjcp2403041

M3 - 文献综述

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EP - 460

JO - Chinese Journal of Chemical Physics

JF - Chinese Journal of Chemical Physics

IS - 4

ER -

Development and application of ultrafast circular dichroism spectroscopy techniques

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