В журнале Nanoscale, (IF 7,790) опубликована статья с участием сотрудницы Института к.х.н. Е.А. Чулановой (нс, ЛГетС)
Photoactive ultrathin molecular nanosheets with reversible lanthanide binding terpyridine centers
Zian Tang, Elena Chulanova, Maria Küllmer, Andreas Winter, Julian Picker, Christof Neumann, Kristin Schreyer, Felix Herrmann-Westendorf, Andreas Arnlind, Benjamin Dietzek, Ulrich S. Schubert and Andrey Turchanin
The Journal of Physical Chemistry Letters, 2021,13(7), 20583-20591
Publication Date (Web):November 22, 2021
doi: 10.1039/D1NR05430A
Abstract
In recent years, functional molecular nanosheets have attracted much attention in the fields of sensors and energy storage. Here, we present an approach for the synthesis of photoactive metal–organic nanosheets with ultimate molecular thickness. To this end, we apply low-energy electron irradiation induced cross-linking of 4′-(2,2′:6′,2′′-terpyridine-4′-yl)-1,1′-biphenyl-4-thiol self-assembled monolayers on gold to convert them into functional ∼1 nm thick carbon nanomembranes possessing the ability to reversibly complex lanthanide ions (Ln-CNMs). The obtained Ln-CNMs can be prepared on a large-scale (>10 cm2) and inherit the photoactivity of the pristine terpyridine lanthanide complex (Ln(III)-tpy). Moreover, they possess mechanical stability as free-standing sheets over micrometer sized openings. The presented methodology paves a simple and robust way for the preparation of ultrathin nanosheets with tailored photoactive properties for application in photocatalytic and energy conversion devices.
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