On-Surface Decarboxylation Coupling Facilitated by Lock-to-Unlock Variation of Molecules upon the Reaction

Shaoshan Wang; Zhuo Li; Pengcheng Ding; Cristina Mattioli; Wujun Huang; Yang Wang; André Gourdon; Ye Sun; Mingshu Chen; Lev Kantorovich; Xueming Yang; Federico Rosei; Miao Yu

doi:10.1002/anie.202106477

On-Surface Decarboxylation Coupling Facilitated by Lock-to-Unlock Variation of Molecules upon the Reaction

Shaoshan Wang
, Zhuo Li
, Pengcheng Ding
, Cristina Mattioli
, Wujun Huang
, Yang Wang
, André Gourdon
, Ye Sun
, Mingshu Chen
, Lev Kantorovich
, Xueming Yang
, Federico Rosei
, Miao Yu^*

^*Corresponding author for this work

School of Instrumentation Science and Engineering

School of Chemistry and Chemical Engineering, Harbin Institute of Technology
CAS - Dalian Institute of Chemical Physics
CEMES Centre d'Elaboration de Matériaux et d'Etudes Structurales
Xiamen University
King's College London
Institut national de la recherche scientifique

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

On-surface synthesis (OSS) involving relatively high energy barriers remains challenging due to a typical dilemma: firm molecular anchor is required to prevent molecular desorption upon the reaction, whereas sufficient lateral mobility is crucial for subsequent coupling and assembly. By locking the molecular precursors on the substrate then unlocking them during the reaction, we present a strategy to address this challenge. High-yield synthesis based on well-defined decarboxylation, intermediate transition, and hexamerization is demonstrated, resulting in an extended and ordered network exclusively composed of the newly synthesized macrocyclic compound. Thanks to the steric hindrance of its maleimide group, we attain a preferential selection of the coupling. This work unlocks a promising path to enrich the reaction types and improve the coupling selectivity hence the structual homogeneity of the final product for OSS.

Original language	English
Pages (from-to)	17435-17439
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	60
Issue number	32
DOIs	https://doi.org/10.1002/anie.202106477
State	Published - 2 Aug 2021

Keywords

decarboxylation coupling
high energy barrier
intramolecular charge redistribution
on-surface synthesis

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10.1002/anie.202106477

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title = "On-Surface Decarboxylation Coupling Facilitated by Lock-to-Unlock Variation of Molecules upon the Reaction",

abstract = "On-surface synthesis (OSS) involving relatively high energy barriers remains challenging due to a typical dilemma: firm molecular anchor is required to prevent molecular desorption upon the reaction, whereas sufficient lateral mobility is crucial for subsequent coupling and assembly. By locking the molecular precursors on the substrate then unlocking them during the reaction, we present a strategy to address this challenge. High-yield synthesis based on well-defined decarboxylation, intermediate transition, and hexamerization is demonstrated, resulting in an extended and ordered network exclusively composed of the newly synthesized macrocyclic compound. Thanks to the steric hindrance of its maleimide group, we attain a preferential selection of the coupling. This work unlocks a promising path to enrich the reaction types and improve the coupling selectivity hence the structual homogeneity of the final product for OSS.",

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year = "2021",

month = aug,

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doi = "10.1002/anie.202106477",

language = "英语",

volume = "60",

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T1 - On-Surface Decarboxylation Coupling Facilitated by Lock-to-Unlock Variation of Molecules upon the Reaction

AU - Wang, Shaoshan

AU - Li, Zhuo

AU - Ding, Pengcheng

AU - Mattioli, Cristina

AU - Huang, Wujun

AU - Wang, Yang

AU - Gourdon, André

AU - Sun, Ye

AU - Chen, Mingshu

AU - Kantorovich, Lev

AU - Yang, Xueming

AU - Rosei, Federico

AU - Yu, Miao

PY - 2021/8/2

Y1 - 2021/8/2

N2 - On-surface synthesis (OSS) involving relatively high energy barriers remains challenging due to a typical dilemma: firm molecular anchor is required to prevent molecular desorption upon the reaction, whereas sufficient lateral mobility is crucial for subsequent coupling and assembly. By locking the molecular precursors on the substrate then unlocking them during the reaction, we present a strategy to address this challenge. High-yield synthesis based on well-defined decarboxylation, intermediate transition, and hexamerization is demonstrated, resulting in an extended and ordered network exclusively composed of the newly synthesized macrocyclic compound. Thanks to the steric hindrance of its maleimide group, we attain a preferential selection of the coupling. This work unlocks a promising path to enrich the reaction types and improve the coupling selectivity hence the structual homogeneity of the final product for OSS.

AB - On-surface synthesis (OSS) involving relatively high energy barriers remains challenging due to a typical dilemma: firm molecular anchor is required to prevent molecular desorption upon the reaction, whereas sufficient lateral mobility is crucial for subsequent coupling and assembly. By locking the molecular precursors on the substrate then unlocking them during the reaction, we present a strategy to address this challenge. High-yield synthesis based on well-defined decarboxylation, intermediate transition, and hexamerization is demonstrated, resulting in an extended and ordered network exclusively composed of the newly synthesized macrocyclic compound. Thanks to the steric hindrance of its maleimide group, we attain a preferential selection of the coupling. This work unlocks a promising path to enrich the reaction types and improve the coupling selectivity hence the structual homogeneity of the final product for OSS.

KW - decarboxylation coupling

KW - high energy barrier

KW - intramolecular charge redistribution

KW - on-surface synthesis

UR - https://www.scopus.com/pages/publications/85112120561

U2 - 10.1002/anie.202106477

DO - 10.1002/anie.202106477

M3 - 文章

C2 - 34080274

AN - SCOPUS:85112120561

SN - 1433-7851

VL - 60

SP - 17435

EP - 17439

JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 32

ER -

On-Surface Decarboxylation Coupling Facilitated by Lock-to-Unlock Variation of Molecules upon the Reaction

Abstract

Keywords

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