On‐Surface Isomerization of Indigo within 1D Coordination Polymers

Xu, Hongxiang; Chakraborty, Ritam; Adak, Abhishek Kumar; Das, Arpan; Yang, Biao; Meier, Dennis; Riss, Alexander; Reichert, Joachim; Narasimhan, Shobhana; Barth, Johannes V.; Papageorgiou, Anthoula C.

doi:10.1002/anie.202319162

Angew Chem Int Ed

2024

DOI: 10.1002/anie.202319162

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On‐Surface Isomerization of Indigo within 1D Coordination Polymers

Hongxiang Xu,

Ritam Chakraborty,

Abhishek Kumar Adak

et al.

Abstract: Natural products are attractive components to tailor environmentally friendly advanced new materials. We present surface‐confined metallosupramolecular engineering of coordination polymers using natural dyes as molecular building blocks: indigo and the related Tyrian purple. Both building blocks yield identical, well‐defined coordination polymers composed of (1 dehydroindigo : 1 Fe) repeat units on two different silver single crystal surfaces. These polymers are characterized atomically by submolecular resolut… Show more

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2024

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Cited by 2 publications

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Three Cu^I-Terpyridyl Coordination Polymers Regulated by π-Conjugated Groups and SCN^– Anions for Organic Dye Photodegradation

Li,

Wang,

Yan

et al. 2024

Crystal Growth & Design

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Developing novel materials for organic dye photodegradation is of great significance in wastewater treatment. Three Cu I -terpyridyl coordination polymers (CPs, have been solvothermally synthesized and exhibit two-dimensional structures extended by Cu I centers, SCN − , anions, and terpyridyl ligands with different π-conjugated groups. Complexes 1−3 can decompose methylene blue (MB), Rhodamine B (RhB), and methyl orange (MO) with photodegradation rates ranging from 44.4 to 96.8% in 120 min. Owing to the more positive valence band potential and lower band gap regulated by Cu(I) delectrons and pi-electrons of terpyridyl ligands, complex 2 exhibits the highest photocatalytic activity with the order of 2 > 1 > 3 and displays varied photodegradation efficiency for other dyes (Janus green B (JGB) and crystal violet (CV) with rates of 70.4 and 65.7% in 120 min, respectively). The degradation products and mechanism of MB by 2 have been proposed by liquid chromatography− mass spectrometry (LC-MS) and radical quenching experiments. These findings present an effective strategy for designing and synthesizing CPs in photodegradation by increasing the aromatic rings of π-conjugated groups and Cu I center numbers, which may exert important impacts in wastewater treatment.

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Three Cu^I-Terpyridyl Coordination Polymers Regulated by π-Conjugated Groups and SCN^– Anions for Organic Dye Photodegradation

Li,

Wang,

Yan

et al. 2024

Crystal Growth & Design

View full text Add to dashboard Cite

show abstract

Controlling the Selectivity of Reaction Products by Transmetalation on a Ag(111) Substrate

Xu,

Zhang,

Hou

et al. 2024

J. Phys. Chem. Lett.

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On-surface synthesis has shown great promise in the precise bottom-up preparation of molecular nanostructures. Apart from the direct C−C coupling reaction pathway, an alternative strategy is to exploit the metal−organic interactions provided by integrated metals for preassembly, which exhibit high reversibility and can anchor specific conformations of molecular precursors, thus allowing the precise construction of nanostructures with improved reaction selectivity. Previous studies have mainly been devoted to the construction of target reaction products through the incorporation of metal atoms, ranging from intrinsic to extrinsic atoms on metal substrates and, more recently, to their cooperative effects. However, the formation of different covalent nanostructures by competitive interactions between intrinsic and extrinsic adatoms remains elusive. Herein, we controlled the selectivity of covalent reaction products from isomerically specific transchains to cis-rings, resulting from the transmetalation of intrinsic Ag adatoms to extrinsic Na atoms on a Ag(111) substrate. Our results exhibit the competitive interactions between intrinsic and extrinsic metal atoms in real space and demonstrate their influence on the selectivity of reaction products, which should broaden the regulatory strategies for on-surface synthesis that shed light on the controllable and selective synthesis of target covalent nanostructures.

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On‐Surface Isomerization of Indigo within 1D Coordination Polymers

Cited by 2 publications

References 83 publications

Three Cu^I-Terpyridyl Coordination Polymers Regulated by π-Conjugated Groups and SCN^– Anions for Organic Dye Photodegradation

Three Cu^I-Terpyridyl Coordination Polymers Regulated by π-Conjugated Groups and SCN^– Anions for Organic Dye Photodegradation

Controlling the Selectivity of Reaction Products by Transmetalation on a Ag(111) Substrate

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On‐Surface Isomerization of Indigo within 1D Coordination Polymers

Cited by 2 publications

References 83 publications

Three CuI-Terpyridyl Coordination Polymers Regulated by π-Conjugated Groups and SCN– Anions for Organic Dye Photodegradation

Three CuI-Terpyridyl Coordination Polymers Regulated by π-Conjugated Groups and SCN– Anions for Organic Dye Photodegradation

Controlling the Selectivity of Reaction Products by Transmetalation on a Ag(111) Substrate

Contact Info

Product

Resources

About

Three Cu^I-Terpyridyl Coordination Polymers Regulated by π-Conjugated Groups and SCN^– Anions for Organic Dye Photodegradation

Three Cu^I-Terpyridyl Coordination Polymers Regulated by π-Conjugated Groups and SCN^– Anions for Organic Dye Photodegradation