Synthesis of the 2H-benzimidazole-based conjugated polymers with various thiophene units and their application in photovoltaic

Suhee Song; Junkuk Kim; Jooyoung Shim; Junghwan Kim; Byoung Hoon Lee; Youngeup Jin; Il Kim; Kwanghee Lee; Hongsuk Suh

doi:10.1016/j.solmat.2011.11.037

Synthesis of the 2H-benzimidazole-based conjugated polymers with various thiophene units and their application in photovoltaic

Suhee Song, Junkuk Kim, Jooyoung Shim, Junghwan Kim, Byoung Hoon Lee, Youngeup Jin, Il Kim, Kwanghee Lee, Hongsuk Suh

Department of Chemical Engineering & Materials Science

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

The advantage of dimethyl-2H-benzimidazole compared to the benzothiadiazole moiety of PCDTBT is to improve the solubility of the polymer while keeping the 1,2-quinoid form to lead coplanarity of the backbone. New random copolymers, to broaden the absorption range for the wider coverage of the solar spectrum, were synthesized by Stille coupling reactions to generate PFDTMBIs (or PFBBTMBIs). The PFDTMBIs in solid films show two maxima peaks at about 420427 and 626641 nm. The solid films of PFBBTMBIs show absorption bands with two maximum peaks at about 443452 and 643652 nm which are red-shifted about 20 nm as compared to PFDTMBIs, which is caused by the introduction of more rigid bithiophene unit in their polymer backbones to improve the photocurrents. The device with PFBBTMBI5:PC ₆₁BM blend demonstrated a V _OC value of 0.68 V, a J _SC value of 3.10 mA/cm ², and an FF of 0.35, leading to the efficiency of 0.74%.

Original language	English
Pages (from-to)	323-330
Number of pages	8
Journal	Solar Energy Materials and Solar Cells
Volume	98
DOIs	https://doi.org/10.1016/j.solmat.2011.11.037
State	Published - Mar 2012

Keywords

Dimethyl-2H-benzimidazole
Photovoltaic cells
Polymer

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.solmat.2011.11.037

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title = "Synthesis of the 2H-benzimidazole-based conjugated polymers with various thiophene units and their application in photovoltaic",

abstract = "The advantage of dimethyl-2H-benzimidazole compared to the benzothiadiazole moiety of PCDTBT is to improve the solubility of the polymer while keeping the 1,2-quinoid form to lead coplanarity of the backbone. New random copolymers, to broaden the absorption range for the wider coverage of the solar spectrum, were synthesized by Stille coupling reactions to generate PFDTMBIs (or PFBBTMBIs). The PFDTMBIs in solid films show two maxima peaks at about 420427 and 626641 nm. The solid films of PFBBTMBIs show absorption bands with two maximum peaks at about 443452 and 643652 nm which are red-shifted about 20 nm as compared to PFDTMBIs, which is caused by the introduction of more rigid bithiophene unit in their polymer backbones to improve the photocurrents. The device with PFBBTMBI5:PC 61BM blend demonstrated a V OC value of 0.68 V, a J SC value of 3.10 mA/cm 2, and an FF of 0.35, leading to the efficiency of 0.74%.",

keywords = "Dimethyl-2H-benzimidazole, Photovoltaic cells, Polymer",

author = "Suhee Song and Junkuk Kim and Jooyoung Shim and Junghwan Kim and {Hoon Lee}, Byoung and Youngeup Jin and Il Kim and Kwanghee Lee and Hongsuk Suh",

year = "2012",

month = mar,

doi = "10.1016/j.solmat.2011.11.037",

language = "English",

volume = "98",

pages = "323--330",

journal = "Solar Energy Materials and Solar Cells",

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AU - Song, Suhee

AU - Kim, Junkuk

AU - Shim, Jooyoung

AU - Kim, Junghwan

AU - Hoon Lee, Byoung

AU - Jin, Youngeup

AU - Kim, Il

AU - Lee, Kwanghee

AU - Suh, Hongsuk

PY - 2012/3

Y1 - 2012/3

N2 - The advantage of dimethyl-2H-benzimidazole compared to the benzothiadiazole moiety of PCDTBT is to improve the solubility of the polymer while keeping the 1,2-quinoid form to lead coplanarity of the backbone. New random copolymers, to broaden the absorption range for the wider coverage of the solar spectrum, were synthesized by Stille coupling reactions to generate PFDTMBIs (or PFBBTMBIs). The PFDTMBIs in solid films show two maxima peaks at about 420427 and 626641 nm. The solid films of PFBBTMBIs show absorption bands with two maximum peaks at about 443452 and 643652 nm which are red-shifted about 20 nm as compared to PFDTMBIs, which is caused by the introduction of more rigid bithiophene unit in their polymer backbones to improve the photocurrents. The device with PFBBTMBI5:PC 61BM blend demonstrated a V OC value of 0.68 V, a J SC value of 3.10 mA/cm 2, and an FF of 0.35, leading to the efficiency of 0.74%.

AB - The advantage of dimethyl-2H-benzimidazole compared to the benzothiadiazole moiety of PCDTBT is to improve the solubility of the polymer while keeping the 1,2-quinoid form to lead coplanarity of the backbone. New random copolymers, to broaden the absorption range for the wider coverage of the solar spectrum, were synthesized by Stille coupling reactions to generate PFDTMBIs (or PFBBTMBIs). The PFDTMBIs in solid films show two maxima peaks at about 420427 and 626641 nm. The solid films of PFBBTMBIs show absorption bands with two maximum peaks at about 443452 and 643652 nm which are red-shifted about 20 nm as compared to PFDTMBIs, which is caused by the introduction of more rigid bithiophene unit in their polymer backbones to improve the photocurrents. The device with PFBBTMBI5:PC 61BM blend demonstrated a V OC value of 0.68 V, a J SC value of 3.10 mA/cm 2, and an FF of 0.35, leading to the efficiency of 0.74%.

KW - Dimethyl-2H-benzimidazole

KW - Photovoltaic cells

KW - Polymer

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JF - Solar Energy Materials and Solar Cells

ER -

Synthesis of the 2H-benzimidazole-based conjugated polymers with various thiophene units and their application in photovoltaic

Abstract

Keywords

UN SDGs

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