CeO 中小极化子的超快形成与光学能隙

Ultrafast Formation of Small Polarons and the Optical Gap in CeO.

作者信息

Pelli Cresi Jacopo Stefano, Di Mario Lorenzo, Catone Daniele, Martelli Faustino, Paladini Alessandra, Turchini Stefano, D'Addato Sergio, Luches Paola, O'Keeffe Patrick

机构信息

CNR-ISM, Division of Ultrafast Processes in Materials (FLASHit), Area della Ricerca di Roma 1, Istituto di Struttura della Materia-CNR (ISM-CNR), 00015 Monterotondo Scalo, Italy.

Division of Ultrafast Processes in Materials (FLASHit), Area della Ricerca di Roma 2 Tor Vergata, Istituto di Struttura della Materia-CNR (ISM-CNR), Via del Fosso del Cavaliere 100, 00133 Rome, Italy.

出版信息

J Phys Chem Lett. 2020 Jul 16;11(14):5686-5691. doi: 10.1021/acs.jpclett.0c01590. Epub 2020 Jul 2.

DOI:10.1021/acs.jpclett.0c01590

PMID:32580554

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8008440/

Abstract

The ultrafast dynamics of excited states in cerium oxide are investigated to access the early moments of polaron formation, which can influence the photocatalytic functionality of the material. UV transient absorbance spectra of photoexcited CeO exhibit a bleaching of the band edge absorbance induced by the pump and a photoinduced absorbance feature assigned to Ce 4f → Ce 5d transitions. A blue shift of the spectral response of the photoinduced absorbance signal in the first picosecond after the pump excitation is attributed to the dynamical formation of small polarons with a characteristic time of 330 fs. A further important result of our work is that the combined use of steady-state and ultrafast transient absorption allows us to propose a revised value for the optical gap for ceria ( = 4 eV), significantly larger than usually reported.

摘要

对氧化铈中激发态的超快动力学进行了研究，以了解极化子形成的早期阶段，这可能会影响材料的光催化功能。光激发CeO的紫外瞬态吸收光谱显示，泵浦引起的带边吸收漂白以及归属于Ce 4f→Ce 5d跃迁的光致吸收特征。泵浦激发后第一皮秒内光致吸收信号的光谱响应蓝移归因于特征时间为330 fs的小极化子的动态形成。我们工作的另一个重要结果是，稳态和超快瞬态吸收的联合使用使我们能够提出氧化铈光学带隙的修正值（= 4 eV），该值明显大于通常报道的值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/792c/8008440/8906b3a7ec21/jz0c01590_0001.jpg

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CeO 中小极化子的超快形成与光学能隙

Ultrafast Formation of Small Polarons and the Optical Gap in CeO.

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