Fullerene‐Based Conducting Polymers:<i>n</i>‐Dopable Materials for Charge Storage Application

Grądzka, Emilia; Wysocka‐Żołopa, Monika; Winkler, Krzysztof

doi:10.1002/aenm.202001443

Cited by 29 publications

(20 citation statements)

References 256 publications

(501 reference statements)

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“…Electrochemical macromolecular motors from conducting polymers, carbon nanotubes, graphenes and other electroactive materials act as transducers between thermal, electrical, chemical and mechanical energies. The way is open now to translate those concepts attained form the temperature inuence on both, the material reactions and the articial muscles actuation to increase either, the energetic efficiencies, the transition times and the amplitude of the transient magnitude of any other electrical or electrochemical device working by cooperative actuation of macromolecular electrochemical motors: batteries and super-capacitors, [107][108][109][110][111][112][113][114][115][116][117][118] smart windows, 116,[119][120][121][122][123][124] smart membranes, [125][126][127][128][129][130][131][132][133][134][135][136] nervous interfaces or articial chemical synapse, 134,[137][138][139][140] smart skins, smart drug delivery, 141-146 ionic trapping, 32,33,147 and so on.…”

Section: Technological Perspectivesmentioning

confidence: 99%

Electroactive macromolecular motors as model materials of ectotherm muscles

Otero

2021

RSC Adv.

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Section: Technological Perspectivesmentioning

confidence: 99%

Electroactive macromolecular motors as model materials of ectotherm muscles

Otero

2021

RSC Adv.

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“…As a well-known guest molecule and electron acceptor, C 60 has been widely used in the studies of light-induced processes due to its effectiveness in promoting electronic conductivity, charge separation and charge transfer efficiency. 18–20 Therefore, designing C 60 @POC materials with a guest–host structure to simultaneously realize high charge separation efficiency and redox activity are of great interest. Herein, we report an organic material composed of C 60 guest molecules inside a porous organic cage (C 60 @POC) with effective light-harvesting and energy storage functions to realize highly-efficient solar energy conversion and storage as the cathode in a photo-assisted Li-organic battery.…”

Section: Introductionmentioning

confidence: 99%

Photo-assisted charge/discharge Li-organic battery with a charge-separated and redox-active C₆₀@porous organic cage cathode

Zhang

Mohamed

et al. 2022

Energy Environ. Sci.

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“…This peculiar trait is also common to low‐dimensional carbon nanostructures that show exceptional (opto‐)electronic properties, such as graphene, fullerenes, and carbon nanotubes. [ 20–23 ]…”

Section: Introductionmentioning

confidence: 99%

“…low-dimensional carbon nanostructures that show exceptional (opto-)electronic properties, such as graphene, fullerenes, and carbon nanotubes. [20][21][22][23] There exists an alternative class of π-conjugated molecules with backbones formed from sp-hybridized carbon atoms. Known as carbon atom wires (CAWs) or linear carbon chains, these molecules are regarded as an oligomeric form of the socalled "carbyne," a purely one-dimensional carbon allotrope made of an infinite chain of sp-carbons.…”

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confidence: 99%

Stable and Solution‐Processable Cumulenic sp‐Carbon Wires: A New Paradigm for Organic Electronics

et al. 2022

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has boosted the field of large-area flexible and printed electronics. These advances have enabled a plethora of applications such as organic light-emitting diodes, [1,2] organic photovoltaics, [3,4] organic thermoelectrics, [5,6] organic field-effect transistors (OFETs), [7][8][9][10] organic (bio)sensors, [11][12][13] and neuromorphic devices. [14,15] In this context, organic field-effect transistors (OFETs) are not only relevant for their direct technological application, but they also represent an ideal test-bed to investigate thin-film electrical properties. Organic semiconductors are typically classified in two main families, namely conjugated polymers and small molecules. The former, polymers, are particularly appealing as a result of their solution processability, and OFETs with charge mobility above the standard for hydrogenated amorphous silicon (0.5-1 cm 2 V −1 s −1 ) have been extensively reported. [16] The latter, small molecules, are prone to arrange in ordered molecular crystals, and through several years of chemical tailoring and fine tuning of the films processing, small-molecule OFETs with field-effect mobility >10 cm 2 V −1 s −1 have been achieved. [17][18][19] The chemical root of the π-conjugation of these materials is associated with the sp 2 -hybridization of carbon atoms in their backbone. This peculiar trait is also common to Solution-processed, large-area, and flexible electronics largely relies on the excellent electronic properties of sp 2 -hybridized carbon molecules, either in the form of π-conjugated small molecules and polymers or graphene and carbon nanotubes. Carbon with sp-hybridization, the foundation of the elusive allotrope carbyne, offers vast opportunities for functionalized molecules in the form of linear carbon atomic wires (CAWs), with intriguing and even superior predicted electronic properties. While CAWs represent a vibrant field of research, to date, they have only been applied sparingly to molecular devices. The recent observation of the field-effect in microcrystalline cumulenes suggests their potential applications in solution-processed thin-film transistors but concerns surrounding the stability and electronic performance have precluded developments in this direction. In the present study, ideal field-effect characteristics are demonstrated for solution-processed thin films of tetraphenyl[3]cumulene, the shortest semiconducting CAW. Films are deposited through a scalable, large-area, meniscus-coating technique, providing transistors with hole mobilities in excess of 0.1 cm 2 V −1 s −1 , as well as promising operational stability under dark conditions. These results offer a solid foundation for the exploitation of a vast class of molecular semiconductors for organic electronics based on sp-hybridized carbon systems and create a previously unexplored paradigm.

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Fullerene‐Based Conducting Polymers:n‐Dopable Materials for Charge Storage Application

Cited by 29 publications

References 256 publications

Electroactive macromolecular motors as model materials of ectotherm muscles

Electroactive macromolecular motors as model materials of ectotherm muscles

Photo-assisted charge/discharge Li-organic battery with a charge-separated and redox-active C₆₀@porous organic cage cathode

Stable and Solution‐Processable Cumulenic sp‐Carbon Wires: A New Paradigm for Organic Electronics

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Fullerene‐Based Conducting Polymers:n‐Dopable Materials for Charge Storage Application

Cited by 29 publications

References 256 publications

Electroactive macromolecular motors as model materials of ectotherm muscles

Electroactive macromolecular motors as model materials of ectotherm muscles

Photo-assisted charge/discharge Li-organic battery with a charge-separated and redox-active C60@porous organic cage cathode

Stable and Solution‐Processable Cumulenic sp‐Carbon Wires: A New Paradigm for Organic Electronics

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Product

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About

Photo-assisted charge/discharge Li-organic battery with a charge-separated and redox-active C₆₀@porous organic cage cathode