可见光谱区域光学超快显微镜的进展与展望：瞬态吸收和二维显微镜

Progress and Prospects in Optical Ultrafast Microscopy in the Visible Spectral Region: Transient Absorption and Two-Dimensional Microscopy.

作者信息

Gross Niklas, Kuhs Christopher T, Ostovar Behnaz, Chiang Wei-Yi, Wilson Kelly S, Volek Tanner S, Faitz Zachary M, Carlin Claire C, Dionne Jennifer A, Zanni Martin T, Gruebele Martin, Roberts Sean T, Link Stephan, Landes Christy F

机构信息

Department of Chemistry, Rice University, Houston, Texas 77005, United States.

Army Research Laboratory-South, U.S. Army DEVCOM, Houston, Texas 77005, United States.

出版信息

J Phys Chem C Nanomater Interfaces. 2023 Jul 24;127(30):14557-14586. doi: 10.1021/acs.jpcc.3c02091. eCollection 2023 Aug 3.

DOI:10.1021/acs.jpcc.3c02091

PMID:37554548

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10406104/

Abstract

Ultrafast optical microscopy, generally employed by incorporating ultrafast laser pulses into microscopes, can provide spatially resolved mechanistic insight into scientific problems ranging from hot carrier dynamics to biological imaging. This Review discusses the progress in different ultrafast microscopy techniques, with a focus on transient absorption and two-dimensional microscopy. We review the underlying principles of these techniques and discuss their respective advantages and applicability to different scientific questions. We also examine in detail how instrument parameters such as sensitivity, laser power, and temporal and spatial resolution must be addressed. Finally, we comment on future developments and emerging opportunities in the field of ultrafast microscopy.

摘要

超快光学显微镜通常是通过将超快激光脉冲整合到显微镜中来使用的，它能够在空间上解析从热载流子动力学到生物成像等科学问题的机理。本综述讨论了不同超快显微镜技术的进展，重点是瞬态吸收和二维显微镜。我们回顾了这些技术的基本原理，并讨论了它们各自的优点以及对不同科学问题的适用性。我们还详细研究了诸如灵敏度、激光功率以及时间和空间分辨率等仪器参数必须如何处理。最后，我们对超快显微镜领域的未来发展和新出现的机会进行了评论。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/88dc/10406104/9e601681ceff/jp3c02091_0001.jpg

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可见光谱区域光学超快显微镜的进展与展望：瞬态吸收和二维显微镜

Progress and Prospects in Optical Ultrafast Microscopy in the Visible Spectral Region: Transient Absorption and Two-Dimensional Microscopy.

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