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Low-bandgap conjugated polymers enabling solution-processable tandem solar cells | Nature Reviews Materials
Low-bandgap conjugated polymers enabling solution-processable tandem solar cells | Nature Reviews Materials

Typical acceptor units used in low-bandgap D−A conjugated polymers: (a)... | Download Scientific Diagram
Typical acceptor units used in low-bandgap D−A conjugated polymers: (a)... | Download Scientific Diagram

Low band gap polymers for photovoltaic device with photocurrent response wavelengths over 1000 nm - ScienceDirect
Low band gap polymers for photovoltaic device with photocurrent response wavelengths over 1000 nm - ScienceDirect

Chemical structure of the high bandgap (PCDTBT), low bandgap... | Download Scientific Diagram
Chemical structure of the high bandgap (PCDTBT), low bandgap... | Download Scientific Diagram

Low band gap polymer consisting of quinacridone and diketopyrrolopyrrole and isoindigo units: correlation of ordered structure and intramolecular charge transfer properties - ScienceDirect
Low band gap polymer consisting of quinacridone and diketopyrrolopyrrole and isoindigo units: correlation of ordered structure and intramolecular charge transfer properties - ScienceDirect

Small-Bandgap Semiconducting Polymers with High Near-Infrared Photoresponse | Journal of the American Chemical Society
Small-Bandgap Semiconducting Polymers with High Near-Infrared Photoresponse | Journal of the American Chemical Society

Polymer/Macromolecule Semiconductor Building Blocks | Tokyo Chemical Industry Co., Ltd.
Polymer/Macromolecule Semiconductor Building Blocks | Tokyo Chemical Industry Co., Ltd.

Synthesis and properties of low band gap polymers based on thienyl thienoindole as a new electron-rich unit for organic photovoltaics - Polymer Chemistry (RSC Publishing)
Synthesis and properties of low band gap polymers based on thienyl thienoindole as a new electron-rich unit for organic photovoltaics - Polymer Chemistry (RSC Publishing)

Energy diagram of low-bandgap polymers with alternating donor–acceptor... | Download Scientific Diagram
Energy diagram of low-bandgap polymers with alternating donor–acceptor... | Download Scientific Diagram

Selenophene Bearing Low Band Gap Conjugated Polymers: Tuning Optoelectronic Properties via Fluorene and Carbazole as Donor Moieties[v1] | Preprints
Selenophene Bearing Low Band Gap Conjugated Polymers: Tuning Optoelectronic Properties via Fluorene and Carbazole as Donor Moieties[v1] | Preprints

Frontiers | Low Bandgap Donor-Acceptor π-Conjugated Polymers From Diarylcyclopentadienone-Fused Naphthalimides
Frontiers | Low Bandgap Donor-Acceptor π-Conjugated Polymers From Diarylcyclopentadienone-Fused Naphthalimides

Very Low Band Gap Thiadiazoloquinoxaline Donor–Acceptor Polymers as Multi-tool Conjugated Polymers | Journal of the American Chemical Society
Very Low Band Gap Thiadiazoloquinoxaline Donor–Acceptor Polymers as Multi-tool Conjugated Polymers | Journal of the American Chemical Society

para-Azaquinodimethane: A Compact Quinodimethane Variant as an Ambient Stable Building Block for High-Performance Low Band Gap Polymers (Journal Article) | DOE PAGES
para-Azaquinodimethane: A Compact Quinodimethane Variant as an Ambient Stable Building Block for High-Performance Low Band Gap Polymers (Journal Article) | DOE PAGES

Synthesis and characterization of dithienylbenzobis(thiadiazole)-based low band-gap polymers for organic electronics - Chemical Communications (RSC Publishing)
Synthesis and characterization of dithienylbenzobis(thiadiazole)-based low band-gap polymers for organic electronics - Chemical Communications (RSC Publishing)

Donor–acceptor type low band gap polymers: polysquaraines and related systems - Chemical Society Reviews (RSC Publishing)
Donor–acceptor type low band gap polymers: polysquaraines and related systems - Chemical Society Reviews (RSC Publishing)

Low-Band gap Conjugated Polymers with Strong Absorption in the Second Near-Infrared Region Based on Diketopyrrolopyrrole-Containing Quinoidal Units | Macromolecules
Low-Band gap Conjugated Polymers with Strong Absorption in the Second Near-Infrared Region Based on Diketopyrrolopyrrole-Containing Quinoidal Units | Macromolecules

Polymers | Free Full-Text | Low Band Gap Donor–Acceptor Type Polymers Containing 2,3-Bis(4-(decyloxy)phenyl)pyrido[4,3-b]pyrazine as Acceptor and Different Thiophene Derivatives as Donors
Polymers | Free Full-Text | Low Band Gap Donor–Acceptor Type Polymers Containing 2,3-Bis(4-(decyloxy)phenyl)pyrido[4,3-b]pyrazine as Acceptor and Different Thiophene Derivatives as Donors

Synthesis of low band-gap 2D conjugated polymers and their application for organic field effect transistors and solar cells - ScienceDirect
Synthesis of low band-gap 2D conjugated polymers and their application for organic field effect transistors and solar cells - ScienceDirect

Very Low Band Gap Thiadiazoloquinoxaline Donor–Acceptor Polymers as Multi-tool Conjugated Polymers | Journal of the American Chemical Society
Very Low Band Gap Thiadiazoloquinoxaline Donor–Acceptor Polymers as Multi-tool Conjugated Polymers | Journal of the American Chemical Society

Ternary Organic Solar Cells Based on a Wide-Bandgap Polymer with Enhanced Power Conversion Efficiencies | Scientific Reports
Ternary Organic Solar Cells Based on a Wide-Bandgap Polymer with Enhanced Power Conversion Efficiencies | Scientific Reports

Low Band Gap Donor–Acceptor Conjugated Polymers with Indanone-Condensed Thiadiazolo[3,4-g]quinoxaline Acceptors,Macromolecules - X-MOL
Low Band Gap Donor–Acceptor Conjugated Polymers with Indanone-Condensed Thiadiazolo[3,4-g]quinoxaline Acceptors,Macromolecules - X-MOL

Low band gap polymers for application in solar cells: synthesis and characterization of thienothiophene–thiophene copolymers - Polymer Chemistry (RSC Publishing)
Low band gap polymers for application in solar cells: synthesis and characterization of thienothiophene–thiophene copolymers - Polymer Chemistry (RSC Publishing)

Design, synthesis, and properties of benzobisthiadiazole-based donor–π–acceptor–π–donor type of low-band-gap chromophores and polymers
Design, synthesis, and properties of benzobisthiadiazole-based donor–π–acceptor–π–donor type of low-band-gap chromophores and polymers

Absorbing infrared light in polymer solar cells
Absorbing infrared light in polymer solar cells

Rational Design of Low Band Gap Polymers for Efficient Solar Cells with High Open-Circuit Voltage: The Profound Effect of Me and Cl Substituents with a Similar van Der Waals Radius | ACS
Rational Design of Low Band Gap Polymers for Efficient Solar Cells with High Open-Circuit Voltage: The Profound Effect of Me and Cl Substituents with a Similar van Der Waals Radius | ACS