泛音
离域电子
红外线的
红外光谱学
扫描隧道显微镜
分子物理学
密度泛函理论
化学
二维红外光谱
激发
光谱学
量子隧道
红外显微镜
材料科学
分子振动
显微镜
谱线
振动
光电子学
导电原子力显微镜
扫描隧道光谱
原子物理学
泛音带
分子
旋转(数学)
分析化学(期刊)
扫描探针显微镜
化学物理
戒指(化学)
拉曼光谱
近红外光谱
分子轨道
作者
Kangkai Liang,Zihao Wang,Weike Quan,Yueqing Shi,Hao Zhou,Liya Bi,Zhiyuan Yin,Nathan Romero,Mark A. Young,Shaowei Li
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2026-02-19
卷期号:391 (6787): 807-811
被引量:2
标识
DOI:10.1126/science.adz6643
摘要
Probing vibrations at the single-molecule level is essential for achieving bond-specific chemical control in realistic heterogeneous environments. Here, we introduce a new measurement scheme that integrates frequency-tunable infrared excitation with scanning tunneling microscopy to characterize vibration-mediated nuclear motions of single molecules. We first validated the technique by monitoring the infrared-induced rotation of the ethynyl radical and then applied it to mapping pyrrolidine's conformational dynamics. The resulting broadband spectra captured fundamental vibrational modes together with rich overtone and combination bands inaccessible by conventional methods, which we confirmed with isotopic substitutions. Density functional theory calculations showed that delocalized modes coupled with pyrrolidine ring puckering drive the structural transition, revealing altered selection rules compared with traditional infrared spectroscopy. This new experimental platform enables molecular vibrations and transformations to be probed with atomic precision.
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