Revealing polymerisation defects and formation mechanisms in aldol condensation for conjugated polymers via high-resolution molecular imaging

Xiaocui Wu; Stefania Moro; Adam Marks; Maryam Alsufyani; Zidi Yu; Luís M.A. Perdigão; Xingxing Chen; Alexander M.T. Luci; Callum Crockford; Simon E.F. Spencer; David J. Fox; Jian Pei; Iain McCulloch; Giovanni Costantini

doi:10.1038/s41467-025-62221-y

Revealing polymerisation defects and formation mechanisms in aldol condensation for conjugated polymers via high-resolution molecular imaging

Xiaocui Wu, Stefania Moro, Adam Marks, Maryam Alsufyani, Zidi Yu, Luís M.A. Perdigão, Xingxing Chen, Alexander M.T. Luci, Callum Crockford, Simon E.F. Spencer, David J. Fox, Jian Pei, Iain McCulloch, Giovanni Costantini

Electrical and Computer Engineering

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

Abstract

Aldol condensation is a crucial synthetic reaction in organic chemistry, particularly valued for fabricating conjugated polymers without the use of metals or toxic organostannanes. However, due to the lack of reliable and precise analytical methods, no direct evidence of the microstructure and sequence of synthesised polymers has been obtained, limiting control over their structure and performance. Here, by combining electrospray deposition and scanning tunnelling microscopy (ESD-STM), we analyse sub-monomer resolution images of four different n-type polymers produced via aldol condensation, revealing unexpected defects in both the sequence of (co)monomers and their coupling. These defects, observed across all polymer samples, indicate alternative side reaction pathways inherent to aldol condensation. Our findings not only uncover the reaction mechanism responsible for these defects but also bring new insights for the design of more effective synthetic pathways to minimise structural defects in conjugated polymers.

Original language	English (US)
Article number	7031
Journal	Nature communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-62221-y
State	Published - Dec 2025

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General
General Physics and Astronomy

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10.1038/s41467-025-62221-y

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Wu, X., Moro, S., Marks, A., Alsufyani, M., Yu, Z., Perdigão, L. M. A., Chen, X., Luci, A. M. T., Crockford, C., Spencer, S. E. F., Fox, D. J., Pei, J., McCulloch, I., & Costantini, G. (2025). Revealing polymerisation defects and formation mechanisms in aldol condensation for conjugated polymers via high-resolution molecular imaging. Nature communications, 16(1), Article 7031. https://doi.org/10.1038/s41467-025-62221-y

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title = "Revealing polymerisation defects and formation mechanisms in aldol condensation for conjugated polymers via high-resolution molecular imaging",

abstract = "Aldol condensation is a crucial synthetic reaction in organic chemistry, particularly valued for fabricating conjugated polymers without the use of metals or toxic organostannanes. However, due to the lack of reliable and precise analytical methods, no direct evidence of the microstructure and sequence of synthesised polymers has been obtained, limiting control over their structure and performance. Here, by combining electrospray deposition and scanning tunnelling microscopy (ESD-STM), we analyse sub-monomer resolution images of four different n-type polymers produced via aldol condensation, revealing unexpected defects in both the sequence of (co)monomers and their coupling. These defects, observed across all polymer samples, indicate alternative side reaction pathways inherent to aldol condensation. Our findings not only uncover the reaction mechanism responsible for these defects but also bring new insights for the design of more effective synthetic pathways to minimise structural defects in conjugated polymers.",

author = "Xiaocui Wu and Stefania Moro and Adam Marks and Maryam Alsufyani and Zidi Yu and Perdig{\~a}o, \{Lu{\'i}s M.A.\} and Xingxing Chen and Luci, \{Alexander M.T.\} and Callum Crockford and Spencer, \{Simon E.F.\} and Fox, \{David J.\} and Jian Pei and Iain McCulloch and Giovanni Costantini",

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year = "2025",

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doi = "10.1038/s41467-025-62221-y",

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Wu, X, Moro, S, Marks, A, Alsufyani, M, Yu, Z, Perdigão, LMA, Chen, X, Luci, AMT, Crockford, C, Spencer, SEF, Fox, DJ, Pei, J, McCulloch, I & Costantini, G 2025, 'Revealing polymerisation defects and formation mechanisms in aldol condensation for conjugated polymers via high-resolution molecular imaging', Nature communications, vol. 16, no. 1, 7031. https://doi.org/10.1038/s41467-025-62221-y

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T1 - Revealing polymerisation defects and formation mechanisms in aldol condensation for conjugated polymers via high-resolution molecular imaging

AU - Wu, Xiaocui

AU - Moro, Stefania

AU - Marks, Adam

AU - Alsufyani, Maryam

AU - Yu, Zidi

AU - Perdigão, Luís M.A.

AU - Chen, Xingxing

AU - Luci, Alexander M.T.

AU - Crockford, Callum

AU - Spencer, Simon E.F.

AU - Fox, David J.

AU - Pei, Jian

AU - McCulloch, Iain

AU - Costantini, Giovanni

PY - 2025/12

Y1 - 2025/12

N2 - Aldol condensation is a crucial synthetic reaction in organic chemistry, particularly valued for fabricating conjugated polymers without the use of metals or toxic organostannanes. However, due to the lack of reliable and precise analytical methods, no direct evidence of the microstructure and sequence of synthesised polymers has been obtained, limiting control over their structure and performance. Here, by combining electrospray deposition and scanning tunnelling microscopy (ESD-STM), we analyse sub-monomer resolution images of four different n-type polymers produced via aldol condensation, revealing unexpected defects in both the sequence of (co)monomers and their coupling. These defects, observed across all polymer samples, indicate alternative side reaction pathways inherent to aldol condensation. Our findings not only uncover the reaction mechanism responsible for these defects but also bring new insights for the design of more effective synthetic pathways to minimise structural defects in conjugated polymers.

AB - Aldol condensation is a crucial synthetic reaction in organic chemistry, particularly valued for fabricating conjugated polymers without the use of metals or toxic organostannanes. However, due to the lack of reliable and precise analytical methods, no direct evidence of the microstructure and sequence of synthesised polymers has been obtained, limiting control over their structure and performance. Here, by combining electrospray deposition and scanning tunnelling microscopy (ESD-STM), we analyse sub-monomer resolution images of four different n-type polymers produced via aldol condensation, revealing unexpected defects in both the sequence of (co)monomers and their coupling. These defects, observed across all polymer samples, indicate alternative side reaction pathways inherent to aldol condensation. Our findings not only uncover the reaction mechanism responsible for these defects but also bring new insights for the design of more effective synthetic pathways to minimise structural defects in conjugated polymers.

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Revealing polymerisation defects and formation mechanisms in aldol condensation for conjugated polymers via high-resolution molecular imaging

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