Cascade exciton-pumping engines with manipulated speed and efficiency in light-harvesting porous π-network films

Gu, Cheng; Huang, Ning; Xu, Fei; Gao, Jia; Jiang, Donglin

doi:10.1038/srep08867

Cited by 37 publications

(21 citation statements)

References 56 publications

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“…The porous films prepared by electropolymerization that have been reported to date are not based on AIE units, and the most emissive had a quantum yield of only 19 %. [6c] The integration of AIE units dramatically enhanced the photoluminescence capability, with an increase in the quantum yield to 40 %. Notably, the luminescence activity of the porous polyTPECz films is the highest reported for AIE-based porous materials to date; these materials typically have a quantum yield of only a few percent (see Table S1).…”

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confidence: 99%

Design of Highly Photofunctional Porous Polymer Films with Controlled Thickness and Prominent Microporosity

et al. 2015

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Porous organic polymers allow the integration of various π-units into robust porous π-networks, but they are usually synthesized as unprocessable solids with poor light-emitting performance as a result of aggregation-related excitation dissipation. Herein, we report a general strategy for the synthesis of highly emissive photofunctional porous polymer films on the basis of a complementary scheme for the structural design of aggregation-induced-emissive π-systems. We developed a high-throughput and facile method for the direct synthesis of large-area porous thin films at the liquid–electrode interface. The approach enables the preparation of microporous films within only a few seconds or minutes and allows precise control over their thickness with sub-nanometer precision. By virtue of rapid photoinduced electron transfer, the thin films can detect explosives with enhanced sensitivity to low parts-per-million levels in a selective manner.

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confidence: 99%

Design of Highly Photofunctional Porous Polymer Films with Controlled Thickness and Prominent Microporosity

et al. 2015

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“…Porous organic polymers (POPs) are a unique class of amorphous porous polymers that combine covalent π‐networks with inherent porosity. POPs are a class of emerging multifunctional materials and show outstanding properties and functions in various applications, such as gas storage, light emitting, catalysis, energy transfer and energy storage . They are robust in stability as a result of strong covalent bond‐linked network structure and can be synthesized using a variety of different π‐units.…”

Section: Porous Luminescent Films Based On Porous Organic Polymersmentioning

confidence: 99%

“…Electropolymerization is a powerful method to prepare polymer films on electrodes, whereas the precursors are oxidized electrochemically and the coupling reaction between the precursors occurs at the electrode surface with deposition of the polymer film onto the electrode . As a proof of concept, a triphenylbenzene (TPB, 36 ) based monomer with three electrochemical active carbazole units on the periphery ( Figure a) has been utilized; the synthesis of crosslinked POP films becomes possible based on electropolymerization at a solution‐electrode interface for the simultaneous polymerization and deposition of porous polymer films on electrodes .…”

Section: Porous Luminescent Films Based On Porous Organic Polymersmentioning

confidence: 99%

Luminescent Porous Polymers Based on Aggregation‐Induced Mechanism: Design, Synthesis and Functions

Dalapati

Jiang

2016

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Enormous research efforts are focusing on the design and synthesis of advanced luminescent systems, owing to their diverse capability in scientific studies and technological developments. In particular, fluorescence systems based on aggregation-induced emission (AIE) have emerged to show great potential for sensing, bio-imaging, and optoelectronic applications. Among them, integrating AIE mechanisms to design porous polymers is unique because it enables the combination of porosity and luminescence activity in one molecular skeleton for functional design. In recent years rapid progress in exploring AIE-based porous polymers has developed a new class of luminescent materials that exhibit broad structural diversity, outstanding properties and functions and promising applications. By classifying the structural nature of the skeleton, herein the design principle, synthetic development and structural features of different porous luminescent materials are elucidated, including crystalline covalent organic frameworks (COFs), metal-organic frameworks (MOFs), and amorphous porous organic polymers (POPs). The functional exploration of these luminescent porous polymers are highlighted by emphasizing electronic interplay within the confined nanospace, fundamental issues to be addressed are disclosed, and future directions from chemistry, physics and materials science perspectives are proposed.

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“…Microporous polymer films ( P4 ) based on monomer 4 have been used as light‐harvesting antennae for exciton pumping by Jiang and co‐workers . The thin films of P4 were synthesized on ITO by potentiodynamic electrochemical polymerization in dichloromethane solution.…”

Section: Films Of Carbazole‐based Microporous Polymer Networkmentioning

confidence: 99%

“…h) Luminescence engineering of 30 dye‐infiltrated P4 films with the corresponding Commission Internationale de L'eclairage (CIE) coordinates. Adapted with permission . 2015, Nature Publishing Group.…”

Section: Films Of Carbazole‐based Microporous Polymer Networkmentioning

confidence: 99%

Electrochemically Generated Thin Films of Microporous Polymer Networks: Synthesis, Properties, and Applications

Palma-Cando

Scherf

2016

Macro Chemistry & Physics

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Electrochemical oxidative polymerization of rigid, multifunctional monomers allows for the synthesis of microporous thin films with high surface areas. Multifunctional, carbazole‐ and thiophene‐based rigid monomers have been utilized as rigid 3D building blocks (tectons) toward microporous polymer films with relatively smooth surface morphology. Within the last four years, several studies following this approach have been published that report interesting results on the application of these electrogenerated films in organic electronics, photoluminescence‐based or electrochemical chemodetectors, electrochemical supercapacitors, and light‐harvesting antennae for exciton pumping. In this work, the synthetic approaches for the electrochemical polymerization of multifunctional carbazole‐ and thiophene‐based tectons as well as resulting properties and application possibilities of the electrogenerated microporous polymer films are reviewed.

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Cascade exciton-pumping engines with manipulated speed and efficiency in light-harvesting porous π-network films

Cited by 37 publications

References 56 publications

Design of Highly Photofunctional Porous Polymer Films with Controlled Thickness and Prominent Microporosity

Design of Highly Photofunctional Porous Polymer Films with Controlled Thickness and Prominent Microporosity

Luminescent Porous Polymers Based on Aggregation‐Induced Mechanism: Design, Synthesis and Functions

Electrochemically Generated Thin Films of Microporous Polymer Networks: Synthesis, Properties, and Applications

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