Systematic evaluation of structure-property relationships in heteroacene-diketopyrrolopyrrole molecular donors for organic solar cells

Stephen Loser; Sylvia J. Lou; Brett M. Savoie; Carson J. Bruns; Amod Timalsina; Matthew J. Leonardi; Jeremy Smith; Tobias Harschneck; Riccardo Turrisi; Nanjia Zhou; Charlotte L. Stern; Amy A. Sarjeant; Antonio Facchetti; Robert P.H. Chang; Samuel I. Stupp; Mark A. Ratner; Lin X. Chen; Tobin J. Marks

doi:10.1039/c7ta02037f

Systematic evaluation of structure-property relationships in heteroacene-diketopyrrolopyrrole molecular donors for organic solar cells

Stephen Loser, Sylvia J. Lou, Brett M. Savoie, Carson J. Bruns, Amod Timalsina, Matthew J. Leonardi, Jeremy Smith, Tobias Harschneck, Riccardo Turrisi, Nanjia Zhou, Charlotte L. Stern, Amy A. Sarjeant, Antonio Facchetti^*, Robert P.H. Chang, Samuel I. Stupp, Mark A. Ratner, Lin X. Chen, Tobin J. Marks

^*Corresponding author for this work

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

30 Scopus citations

Abstract

Improved understanding of fundamental structure-property relationships, particularly the effects of molecular shape and intermolecular packing on film morphology and active layer charge transport characteristics, enables more rational synthesis of new p-type small molecules. Here we investigate a series of small molecules consisting of an acene-based electron-rich core flanked by one or two electron-deficient diketopyrrolopyrrole (DPP) moieties. Through minor changes in the molecule structures, measurable variations in the crystal structure and sizable differences in macroscopic properties are achieved. The molecular symmetry as well as the conformation of the side chains affects the unit cell packing density and strength of the intermolecular electronic coupling in single crystals of all molecules in this series. The addition of a second DPP unit to the benzodithiophene (BDT) core increases molecular planarity leading to decreased reorganization energy, strong cofacial coupling, and moderate hole mobility (2.7 × 10^-4 cm² V^-1 s^-1). Increasing the length of the acene core from benzodithiophene to naphthodithiophene (NDT) results in a further reduction in reorganization energy and formation of smaller crystalline domains (∼11 nm) when mixed with PCBM. Decreasing the aspect ratio of the core using a "zig-zag" naphthodithiophene (zNDT) isomer results in the highest hole mobility of 1.3 × 10^-3 cm² V^-1 s^-1 due in part to tight lamellar (d = 13.5 Å) and π-π stacking (d = 3.9 Å). The hole mobility is directly correlated with the short-circuit current (11.7 mA cm^-2) and solar cell efficiency (4.4%) of the highest performing zNDT:PCBM device. For each of these small molecules the calculated π-coupling constant is correlated with the hole mobility as a function of crystal structure and orientation indicating the importance of designing molecules that create extended crystalline networks with maximal π-orbital overlap.

Original language	English (US)
Pages (from-to)	9217-9232
Number of pages	16
Journal	Journal of Materials Chemistry A
Volume	5
Issue number	19
DOIs	https://doi.org/10.1039/c7ta02037f
State	Published - 2017

ASJC Scopus subject areas

General Chemistry
Renewable Energy, Sustainability and the Environment
General Materials Science

UN SDGs

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

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10.1039/c7ta02037f

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Loser, S., Lou, S. J., Savoie, B. M., Bruns, C. J., Timalsina, A., Leonardi, M. J., Smith, J., Harschneck, T., Turrisi, R., Zhou, N., Stern, C. L., Sarjeant, A. A., Facchetti, A., Chang, R. P. H., Stupp, S. I., Ratner, M. A., Chen, L. X., & Marks, T. J. (2017). Systematic evaluation of structure-property relationships in heteroacene-diketopyrrolopyrrole molecular donors for organic solar cells. Journal of Materials Chemistry A, 5(19), 9217-9232. https://doi.org/10.1039/c7ta02037f

@article{3b3fcf7a50d24eaabe1152ad43e00c1c,

title = "Systematic evaluation of structure-property relationships in heteroacene-diketopyrrolopyrrole molecular donors for organic solar cells",

abstract = "Improved understanding of fundamental structure-property relationships, particularly the effects of molecular shape and intermolecular packing on film morphology and active layer charge transport characteristics, enables more rational synthesis of new p-type small molecules. Here we investigate a series of small molecules consisting of an acene-based electron-rich core flanked by one or two electron-deficient diketopyrrolopyrrole (DPP) moieties. Through minor changes in the molecule structures, measurable variations in the crystal structure and sizable differences in macroscopic properties are achieved. The molecular symmetry as well as the conformation of the side chains affects the unit cell packing density and strength of the intermolecular electronic coupling in single crystals of all molecules in this series. The addition of a second DPP unit to the benzodithiophene (BDT) core increases molecular planarity leading to decreased reorganization energy, strong cofacial coupling, and moderate hole mobility (2.7 × 10-4 cm2 V-1 s-1). Increasing the length of the acene core from benzodithiophene to naphthodithiophene (NDT) results in a further reduction in reorganization energy and formation of smaller crystalline domains (∼11 nm) when mixed with PCBM. Decreasing the aspect ratio of the core using a {"}zig-zag{"} naphthodithiophene (zNDT) isomer results in the highest hole mobility of 1.3 × 10-3 cm2 V-1 s-1 due in part to tight lamellar (d = 13.5 {\AA}) and π-π stacking (d = 3.9 {\AA}). The hole mobility is directly correlated with the short-circuit current (11.7 mA cm-2) and solar cell efficiency (4.4%) of the highest performing zNDT:PCBM device. For each of these small molecules the calculated π-coupling constant is correlated with the hole mobility as a function of crystal structure and orientation indicating the importance of designing molecules that create extended crystalline networks with maximal π-orbital overlap.",

author = "Stephen Loser and Lou, {Sylvia J.} and Savoie, {Brett M.} and Bruns, {Carson J.} and Amod Timalsina and Leonardi, {Matthew J.} and Jeremy Smith and Tobias Harschneck and Riccardo Turrisi and Nanjia Zhou and Stern, {Charlotte L.} and Sarjeant, {Amy A.} and Antonio Facchetti and Chang, {Robert P.H.} and Stupp, {Samuel I.} and Ratner, {Mark A.} and Chen, {Lin X.} and Marks, {Tobin J.}",

note = "Publisher Copyright: {\textcopyright} The Royal Society of Chemistry 2017.",

year = "2017",

doi = "10.1039/c7ta02037f",

language = "English (US)",

volume = "5",

pages = "9217--9232",

journal = "Journal of Materials Chemistry A",

issn = "2050-7488",

publisher = "Royal Society of Chemistry",

number = "19",

}

Loser, S, Lou, SJ, Savoie, BM, Bruns, CJ, Timalsina, A, Leonardi, MJ, Smith, J, Harschneck, T, Turrisi, R, Zhou, N, Stern, CL, Sarjeant, AA, Facchetti, A, Chang, RPH , Stupp, SI , Ratner, MA , Chen, LX & Marks, TJ 2017, 'Systematic evaluation of structure-property relationships in heteroacene-diketopyrrolopyrrole molecular donors for organic solar cells', Journal of Materials Chemistry A, vol. 5, no. 19, pp. 9217-9232. https://doi.org/10.1039/c7ta02037f

TY - JOUR

T1 - Systematic evaluation of structure-property relationships in heteroacene-diketopyrrolopyrrole molecular donors for organic solar cells

AU - Loser, Stephen

AU - Lou, Sylvia J.

AU - Savoie, Brett M.

AU - Bruns, Carson J.

AU - Timalsina, Amod

AU - Leonardi, Matthew J.

AU - Smith, Jeremy

AU - Harschneck, Tobias

AU - Turrisi, Riccardo

AU - Zhou, Nanjia

AU - Stern, Charlotte L.

AU - Sarjeant, Amy A.

AU - Facchetti, Antonio

AU - Chang, Robert P.H.

AU - Stupp, Samuel I.

AU - Ratner, Mark A.

AU - Chen, Lin X.

AU - Marks, Tobin J.

PY - 2017

Y1 - 2017

N2 - Improved understanding of fundamental structure-property relationships, particularly the effects of molecular shape and intermolecular packing on film morphology and active layer charge transport characteristics, enables more rational synthesis of new p-type small molecules. Here we investigate a series of small molecules consisting of an acene-based electron-rich core flanked by one or two electron-deficient diketopyrrolopyrrole (DPP) moieties. Through minor changes in the molecule structures, measurable variations in the crystal structure and sizable differences in macroscopic properties are achieved. The molecular symmetry as well as the conformation of the side chains affects the unit cell packing density and strength of the intermolecular electronic coupling in single crystals of all molecules in this series. The addition of a second DPP unit to the benzodithiophene (BDT) core increases molecular planarity leading to decreased reorganization energy, strong cofacial coupling, and moderate hole mobility (2.7 × 10-4 cm2 V-1 s-1). Increasing the length of the acene core from benzodithiophene to naphthodithiophene (NDT) results in a further reduction in reorganization energy and formation of smaller crystalline domains (∼11 nm) when mixed with PCBM. Decreasing the aspect ratio of the core using a "zig-zag" naphthodithiophene (zNDT) isomer results in the highest hole mobility of 1.3 × 10-3 cm2 V-1 s-1 due in part to tight lamellar (d = 13.5 Å) and π-π stacking (d = 3.9 Å). The hole mobility is directly correlated with the short-circuit current (11.7 mA cm-2) and solar cell efficiency (4.4%) of the highest performing zNDT:PCBM device. For each of these small molecules the calculated π-coupling constant is correlated with the hole mobility as a function of crystal structure and orientation indicating the importance of designing molecules that create extended crystalline networks with maximal π-orbital overlap.

AB - Improved understanding of fundamental structure-property relationships, particularly the effects of molecular shape and intermolecular packing on film morphology and active layer charge transport characteristics, enables more rational synthesis of new p-type small molecules. Here we investigate a series of small molecules consisting of an acene-based electron-rich core flanked by one or two electron-deficient diketopyrrolopyrrole (DPP) moieties. Through minor changes in the molecule structures, measurable variations in the crystal structure and sizable differences in macroscopic properties are achieved. The molecular symmetry as well as the conformation of the side chains affects the unit cell packing density and strength of the intermolecular electronic coupling in single crystals of all molecules in this series. The addition of a second DPP unit to the benzodithiophene (BDT) core increases molecular planarity leading to decreased reorganization energy, strong cofacial coupling, and moderate hole mobility (2.7 × 10-4 cm2 V-1 s-1). Increasing the length of the acene core from benzodithiophene to naphthodithiophene (NDT) results in a further reduction in reorganization energy and formation of smaller crystalline domains (∼11 nm) when mixed with PCBM. Decreasing the aspect ratio of the core using a "zig-zag" naphthodithiophene (zNDT) isomer results in the highest hole mobility of 1.3 × 10-3 cm2 V-1 s-1 due in part to tight lamellar (d = 13.5 Å) and π-π stacking (d = 3.9 Å). The hole mobility is directly correlated with the short-circuit current (11.7 mA cm-2) and solar cell efficiency (4.4%) of the highest performing zNDT:PCBM device. For each of these small molecules the calculated π-coupling constant is correlated with the hole mobility as a function of crystal structure and orientation indicating the importance of designing molecules that create extended crystalline networks with maximal π-orbital overlap.

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Systematic evaluation of structure-property relationships in heteroacene-diketopyrrolopyrrole molecular donors for organic solar cells

Abstract

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UN SDGs

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CCDC 1517489: Experimental Crystal Structure Determination

CCDC 1517491: Experimental Crystal Structure Determination

CCDC 1517490: Experimental Crystal Structure Determination

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Systematic evaluation of structure-property relationships in heteroacene-diketopyrrolopyrrole molecular donors for organic solar cells

Abstract

ASJC Scopus subject areas

UN SDGs

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Datasets

CCDC 1517489: Experimental Crystal Structure Determination

CCDC 1517491: Experimental Crystal Structure Determination

CCDC 1517490: Experimental Crystal Structure Determination

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