克服了单分子二维光谱的实验障碍。

IF 3.1 2区化学 Q3 CHEMISTRY, PHYSICAL

Journal of Chemical Physics Pub Date : 2025-05-14 DOI:10.1063/5.0261813

Sanchayeeta Jana, Simon Durst, Lucas Ludwig, Markus Lippitz

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引用次数: 0

摘要

二维电子能谱提供了在超快时间尺度上激发态之间耦合和能量传递的信息。直到最近，非相干荧光检测才使这种方法与单分子光谱学相结合，达到灵敏度的极限。主要的障碍是由于有限的光稳定性而检测到的光子数量很少。在这里，我们讨论了使我们能够克服这些障碍的关键实验选择：宽带声光调制，精确锁相环，光子计数锁定检测，延迟级线性化和探测器死区时间补偿。我们演示了获取的光子流数据如何根据特定的标准用于后选择检测事件。

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Overcoming experimental obstacles in two-dimensional spectroscopy of a single molecule.

Two-dimensional electronic spectroscopy provides information on coupling and energy transfer between excited states on ultrafast timescales. Only recently, incoherent fluorescence detection has made it possible to combine this method with single-molecule optical spectroscopy to reach the ultimate limit of sensitivity. The main obstacle has been the low number of photons detected due to limited photostability. Here, we discuss the key experimental choices that allowed us to overcome these obstacles: broadband acousto-optic modulation, accurate phase-locked loops, photon-counting lock-in detection, delay stage linearization, and detector dead-time compensation. We demonstrate how the acquired photon stream data can be used to post-select detection events according to specific criteria.

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来源期刊

Journal of Chemical Physics 物理-物理：原子、分子和化学物理

CiteScore

7.40

自引率

15.90%

发文量

1615

审稿时长

2 months

期刊介绍： The Journal of Chemical Physics publishes quantitative and rigorous science of long-lasting value in methods and applications of chemical physics. The Journal also publishes brief Communications of significant new findings, Perspectives on the latest advances in the field, and Special Topic issues. The Journal focuses on innovative research in experimental and theoretical areas of chemical physics, including spectroscopy, dynamics, kinetics, statistical mechanics, and quantum mechanics. In addition, topical areas such as polymers, soft matter, materials, surfaces/interfaces, and systems of biological relevance are of increasing importance. Topical coverage includes: Theoretical Methods and Algorithms Advanced Experimental Techniques Atoms, Molecules, and Clusters Liquids, Glasses, and Crystals Surfaces, Interfaces, and Materials Polymers and Soft Matter Biological Molecules and Networks.