2017
DOI: 10.1002/anie.201707446
|View full text |Cite
|
Sign up to set email alerts
|

Iridium‐Catalyzed Direct C−H Amidation Polymerization: Step‐Growth Polymerization by C−N Bond Formation via C−H Activation to Give Fluorescent Polysulfonamides

Abstract: We report a powerful strategy for activation of C-H bonds to produce polysulfonamides by an atom-economical and green method using iridium-catalyzed direct C-H amidation polymerization (DCAP). After screening various directing groups, additives, silver salts, concentrations, and temperatures to optimize DCAP, high-molecular-weight (up to 149 kDa) and defect-free polysulfonamides were synthesized from various bis-sulfonyl azides. Although these polymers do not have conventional fluorescent conjugated cores, the… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1

Citation Types

1
25
0

Year Published

2018
2018
2020
2020

Publication Types

Select...
7

Relationship

1
6

Authors

Journals

citations
Cited by 25 publications
(26 citation statements)
references
References 48 publications
1
25
0
Order By: Relevance
“…24,46,50−54 Inspired by the highly efficient DCA, we recently reported direct C−H amidation polymerization (DCAP) of bis-sulfonyl azides and bis-benzamides to produce polysulfonamides by an atom-economical and green method (Scheme 1b). 55,56 Interestingly, unique intramolecular hydro-gen-bonds are formed between the proton on the sulfonamide group and adjacent carbonyl group throughout the polymer backbone, causing polysulfonamides to undergo an excitedstate intramolecular proton-transfer (ESIPT) process and emit blue-light with high quantum yields. This process occurs when photoexcited molecule emits light with a very large Stokes shift by transfer of protons, leading to keto−enol tautomerization.…”
mentioning
confidence: 99%
See 1 more Smart Citation
“…24,46,50−54 Inspired by the highly efficient DCA, we recently reported direct C−H amidation polymerization (DCAP) of bis-sulfonyl azides and bis-benzamides to produce polysulfonamides by an atom-economical and green method (Scheme 1b). 55,56 Interestingly, unique intramolecular hydro-gen-bonds are formed between the proton on the sulfonamide group and adjacent carbonyl group throughout the polymer backbone, causing polysulfonamides to undergo an excitedstate intramolecular proton-transfer (ESIPT) process and emit blue-light with high quantum yields. This process occurs when photoexcited molecule emits light with a very large Stokes shift by transfer of protons, leading to keto−enol tautomerization.…”
mentioning
confidence: 99%
“…During the last two decades, C–H activation chemistry has gained widespread attention, because it provides an atom- and step-economical route for preparing not only complex molecules, such as natural products and pharmaceuticals, but also fluorophores that can be applied in organic light-emitting diodes (OLEDs). In the field of C–H activation chemistry, C–C bond formation has been mainly studied so far, but recently, direct C–H amination/amidation strategies resulting in C–N bond formation have also been actively investigated. Among them, Chang’s group developed iridium-catalyzed direct C–H amidation (DCA) reactions between sulfonyl azides and arenes containing carbonyl (or imine) directing groups, thus enabling efficient synthesis of various sulfonamides under mild conditions (Scheme a). ,, Inspired by the highly efficient DCA, we recently reported direct C–H amidation polymerization (DCAP) of bis-sulfonyl azides and bis-benzamides to produce polysulfonamides by an atom-economical and green method (Scheme b). , Interestingly, unique intramolecular hydrogen-bonds are formed between the proton on the sulfonamide group and adjacent carbonyl group throughout the polymer backbone, causing polysulfonamides to undergo an excited-state intramolecular proton-transfer (ESIPT) process and emit blue-light with high quantum yields. This process occurs when photoexcited molecule emits light with a very large Stokes shift by transfer of protons, leading to keto–enol tautomerization.…”
mentioning
confidence: 99%
“…In 2017, the Choi group used the iridium-catalyzed direct C-H amidation polymerization to prepare fluorescent polysulfonamides (Scheme 90). 86 Polysulfonamides 156 was obtained with higher M n of 59.6 kDa. This polymer showed strong blue emission with a large Stokes shift of 166 nm in THF due to an ESIPT process (Figure 39).…”
Section: Appeal Of C-h Functionalization Reactions In Discovering and Building Novel Organic Functional Moleculesmentioning
confidence: 99%
“…Choi et al [49] employed organic azides 139 for the polymerization reaction by using the amidation reaction to synthesize polysulfonamides 140 (Scheme 45). These defect-free polysulfonamides can be synthesized in a high molecular-weight (up to 149 kDa).…”
Section: Cp*ir(iii)-catalyzed Directed Ortho Sp 2 (C)à H Amidation Or...mentioning
confidence: 99%
“…Choi et al [49] . employed organic azides 139 for the polymerization reaction by using the amidation reaction to synthesize polysulfonamides 140 (Scheme 45).…”
Section: Cp*ir(iii)‐catalyzed Directed Ortho Sp2(c)−h Amidation or Am...mentioning
confidence: 99%