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Testing functional anchor groups for the efficient immobilization of molecular catalysts on silver surfaces

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Title
Testing functional anchor groups for the efficient immobilization of molecular catalysts on silver surfaces
Author(s)
Bunjes, Ole; Rittmeier, Alexandra; Daniel Hedman; Hua, Shao-An; Paul, Lucas A.; Meyer, Franc; Feng Ding; Wenderoth, Martin
Publication Date
2024-05
Journal
Communications Chemistry, v.7, no.1
Publisher
NATURE PUBLISHING GROUP
Abstract
Modifications of complexes by attachment of anchor groups are widely used to control molecule-surface interactions. This is of importance for the fabrication of (catalytically active) hybrid systems, viz. of surface immobilized molecular catalysts. In this study, the complex fac-Re(S-Sbpy)(CO)3Cl (S-Sbpy = 3,3 '-disulfide-2,2 '-bipyridine), a sulfurated derivative of the prominent Re(bpy)(CO)3Cl class of CO2 reduction catalysts, was deposited onto the clean Ag(001) surface at room temperature. The complex is thermostable upon sublimation as supported by infrared absorption and nuclear magnetic resonance spectroscopy. Its anchoring process has been analyzed using scanning tunneling microscopy (STM) and density functional theory (DFT) calculations. The growth behavior was directly contrasted to the one of the parent complex fac-Re(bpy)(CO)3Cl (bpy = 2,2 '-bipyridine). The sulfurated complex nucleates as single molecule at different surface sites and at molecule clusters. In contrast, for the parent complex nucleation only occurs in clusters of several molecules at specifically oriented surface steps. While this shows that surface immobilization of the sulfurated complex is more efficient as compared to the parent, symmetry analysis of the STM topographic data supported by DFT calculations indicates that more than 90% of the complexes adsorb in a geometric configuration very similar to the one of the parent complex. Thiolate groups are promising anchors to immobilize catalysts, particularly on coinage metal surfaces, but the anchor group's impact on the local adsorption configuration of the catalyst is often overlooked. Here, the authors study a sulfurated derivative of the prominent Re(bpy)(CO)3Cl carbon dioxide reduction catalysts on a Ag(001) surface at room temperature.
URI
https://pr.ibs.re.kr/handle/8788114/15204
DOI
10.1038/s42004-024-01186-3
ISSN
2399-3669
Appears in Collections:
Center for Multidimensional Carbon Materials(다차원 탄소재료 연구단) > 1. Journal Papers (저널논문)
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