Tuning the Au-Au interactions by varying the degree of polymerisation in linear polymeric Au() N-heterocyclic carbene complexes

Gold( i ) N-heterocyclic carbene (Au( i ) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of polymerisation were isolated for the first time by varying the reaction time. The structure-property relationships of the newly synthesised...

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Published in	Journal of materials chemistry. C, Materials for optical and electronic devices Vol. 1; no. 15; pp. 65 - 66
Main Authors	Sathyanarayana, Arruri, Siddhant, Kumar, Yamane, Masaya, Hisano, Kyohei, Prabusankar, Ganesan, Tsutsumi, Osamu
Format	Journal Article
Language	English
Published	Cambridge Royal Society of Chemistry 14.04.2022
Subjects	Aggregates Carbenes Chemical synthesis Degree of polymerization Emission analysis Luminescence Material properties Molecular structure Phosphorescence Polymers Reaction time Room temperature Spacers Thermal stability Tuning
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Abstract	Gold( i ) N-heterocyclic carbene (Au( i ) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of polymerisation were isolated for the first time by varying the reaction time. The structure-property relationships of the newly synthesised luminescent Au( i ) NHC polymeric complexes were examined from the viewpoint of material applications. In particular, we investigated the effect of controlling the Au-Au interactions by varying the degree of polymerisation and introducing spacers into the complexes. An emission study of the polymers suggested that increasing the degree of polymerisation decreases the number of Au-Au interactions. The structures of the molecular aggregates were affected by the degree of polymerisation as well as the spacer between the two carbenes, and all complexes exhibited a high thermal stability (>300 °C). Moreover, we found that the polymer bearing an alkoxy spacer and with a low degree of polymerisation exhibited white room-temperature phosphorescence, thereby indicating that the luminescence behaviour depends mainly on the molecular aggregate structure. These results suggest that various material properties, such as the luminescence colour and thermal stability, can be controlled independently by tuning the structures of molecules and molecular aggregates using alkyl/alkoxy spacers with different degrees of polymerisation. Gold( i ) N-heterocyclic carbene (Au( i ) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of polymerisation were isolated for the first time by varying the reaction time.
AbstractList	Gold( i ) N-heterocyclic carbene (Au( i ) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of polymerisation were isolated for the first time by varying the reaction time. The structure–property relationships of the newly synthesised luminescent Au( i ) NHC polymeric complexes were examined from the viewpoint of material applications. In particular, we investigated the effect of controlling the Au–Au interactions by varying the degree of polymerisation and introducing spacers into the complexes. An emission study of the polymers suggested that increasing the degree of polymerisation decreases the number of Au–Au interactions. The structures of the molecular aggregates were affected by the degree of polymerisation as well as the spacer between the two carbenes, and all complexes exhibited a high thermal stability (>300 °C). Moreover, we found that the polymer bearing an alkoxy spacer and with a low degree of polymerisation exhibited white room-temperature phosphorescence, thereby indicating that the luminescence behaviour depends mainly on the molecular aggregate structure. These results suggest that various material properties, such as the luminescence colour and thermal stability, can be controlled independently by tuning the structures of molecules and molecular aggregates using alkyl/alkoxy spacers with different degrees of polymerisation. Gold( i ) N-heterocyclic carbene (Au( i ) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of polymerisation were isolated for the first time by varying the reaction time. The structure-property relationships of the newly synthesised luminescent Au( i ) NHC polymeric complexes were examined from the viewpoint of material applications. In particular, we investigated the effect of controlling the Au-Au interactions by varying the degree of polymerisation and introducing spacers into the complexes. An emission study of the polymers suggested that increasing the degree of polymerisation decreases the number of Au-Au interactions. The structures of the molecular aggregates were affected by the degree of polymerisation as well as the spacer between the two carbenes, and all complexes exhibited a high thermal stability (>300 °C). Moreover, we found that the polymer bearing an alkoxy spacer and with a low degree of polymerisation exhibited white room-temperature phosphorescence, thereby indicating that the luminescence behaviour depends mainly on the molecular aggregate structure. These results suggest that various material properties, such as the luminescence colour and thermal stability, can be controlled independently by tuning the structures of molecules and molecular aggregates using alkyl/alkoxy spacers with different degrees of polymerisation. Gold( i ) N-heterocyclic carbene (Au( i ) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of polymerisation were isolated for the first time by varying the reaction time. Gold(i) N-heterocyclic carbene (Au(i) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of polymerisation were isolated for the first time by varying the reaction time. The structure–property relationships of the newly synthesised luminescent Au(i) NHC polymeric complexes were examined from the viewpoint of material applications. In particular, we investigated the effect of controlling the Au–Au interactions by varying the degree of polymerisation and introducing spacers into the complexes. An emission study of the polymers suggested that increasing the degree of polymerisation decreases the number of Au–Au interactions. The structures of the molecular aggregates were affected by the degree of polymerisation as well as the spacer between the two carbenes, and all complexes exhibited a high thermal stability (>300 °C). Moreover, we found that the polymer bearing an alkoxy spacer and with a low degree of polymerisation exhibited white room-temperature phosphorescence, thereby indicating that the luminescence behaviour depends mainly on the molecular aggregate structure. These results suggest that various material properties, such as the luminescence colour and thermal stability, can be controlled independently by tuning the structures of molecules and molecular aggregates using alkyl/alkoxy spacers with different degrees of polymerisation.
Author	Prabusankar, Ganesan Sathyanarayana, Arruri Siddhant, Kumar Tsutsumi, Osamu Yamane, Masaya Hisano, Kyohei
AuthorAffiliation	Department of Chemistry Université Clermont Auvergne Indian Institute of Technology Hyderabad Ritsumeikan University CNRS SIGMA Clermont Department of Applied Chemistry ICCF
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Notes	Electronic supplementary information (ESI) available. CCDC For ESI and crystallographic data in CIF or other electronic format see DOI 2143855 10.1039/d2tc00534d
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Snippet	Gold( i ) N-heterocyclic carbene (Au( i ) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of... Gold(i) N-heterocyclic carbene (Au(i) NHC) polymers were successfully synthesised with alkyl and alkoxy spacers, wherein polymers with different degrees of...
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SubjectTerms	Aggregates Carbenes Chemical synthesis Degree of polymerization Emission analysis Luminescence Material properties Molecular structure Phosphorescence Polymers Reaction time Room temperature Spacers Thermal stability Tuning
Title	Tuning the Au-Au interactions by varying the degree of polymerisation in linear polymeric Au() N-heterocyclic carbene complexes
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