Photoelectronic properties of dileucine and diisoleucine nanotubes with confined water

V. S. Bystrov; E. V. Paramonova; C. A. Kovrigina; O. R. Ledeneva; E. V. Belova; P. S. Zelenovskii; S. A. Kopyl; A. L. Kholkin; V. M. Fridkin

doi:10.1080/00150193.2024.2327957

Photoelectronic properties of dileucine and diisoleucine nanotubes with confined water

V. S. Bystrov^*
, E. V. Paramonova
, C. A. Kovrigina
, O. R. Ledeneva
, E. V. Belova
, P. S. Zelenovskii
, S. A. Kopyl
, A. L. Kholkin
, V. M. Fridkin

^*Corresponding author for this work

Russian Academy of Sciences
Southern Federal University
Lomonosov Moscow State University
University of Aveiro
Shubnikov Institute of Crystallography, Russian Academy of Sciences

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

1 Citation (Scopus)

Abstract

The paper presents modeling and quantum-chemical calculations of polar and photoelectronic properties of helix-like peptide nanotubes (PNTs) based on dileucine (LL) and diisoleucine (II) with nanochannels filled with water molecules. Physical properties of LL-based PNTs are close to those of diphenylalnine (FF) PNTs, whereas II-based PNTs demonstrate lower polarization but higher band gap corresponding to the absorption in the UV-C region. Moreover, polarization of LL and II PNTs depends on the chirality of the individual dipeptides and is significantly higher for l-LL and l-II, similar to what is observed for FF PNTs. Water molecules in the internal cavity of PNTs weakly affect their polar properties, whereas noticeably change the HOMO and LUMO energy levels and reduce the bang gap.

Original language	English
Pages (from-to)	33-39
Number of pages	7
Journal	Ferroelectrics
Volume	619
Issue number	1-3
DOIs	https://doi.org/10.1080/00150193.2024.2327957
Publication status	Published - 2025
Externally published	Yes

Keywords

band gap
chirality
diisoleucine
dileucine
Dipeptides
dipole moment
molecular modeling
peptide nanotubes
polarization
semi-empirical methods
water molecules

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10.1080/00150193.2024.2327957

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@article{2153e22777e54f3c8c1f800829e8f011,

title = "Photoelectronic properties of dileucine and diisoleucine nanotubes with confined water",

abstract = "The paper presents modeling and quantum-chemical calculations of polar and photoelectronic properties of helix-like peptide nanotubes (PNTs) based on dileucine (LL) and diisoleucine (II) with nanochannels filled with water molecules. Physical properties of LL-based PNTs are close to those of diphenylalnine (FF) PNTs, whereas II-based PNTs demonstrate lower polarization but higher band gap corresponding to the absorption in the UV-C region. Moreover, polarization of LL and II PNTs depends on the chirality of the individual dipeptides and is significantly higher for l-LL and l-II, similar to what is observed for FF PNTs. Water molecules in the internal cavity of PNTs weakly affect their polar properties, whereas noticeably change the HOMO and LUMO energy levels and reduce the bang gap.",

keywords = "band gap, chirality, diisoleucine, dileucine, Dipeptides, dipole moment, molecular modeling, peptide nanotubes, polarization, semi-empirical methods, water molecules",

author = "Bystrov, \{V. S.\} and Paramonova, \{E. V.\} and Kovrigina, \{C. A.\} and Ledeneva, \{O. R.\} and Belova, \{E. V.\} and Zelenovskii, \{P. S.\} and Kopyl, \{S. A.\} and Kholkin, \{A. L.\} and Fridkin, \{V. M.\}",

note = "Publisher Copyright: {\textcopyright} 2025 Taylor \& Francis Group, LLC.",

year = "2025",

doi = "10.1080/00150193.2024.2327957",

language = "English",

volume = "619",

pages = "33--39",

journal = "Ferroelectrics",

issn = "0015-0193",

publisher = "Taylor and Francis Ltd.",

number = "1-3",

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TY - JOUR

T1 - Photoelectronic properties of dileucine and diisoleucine nanotubes with confined water

AU - Bystrov, V. S.

AU - Paramonova, E. V.

AU - Kovrigina, C. A.

AU - Ledeneva, O. R.

AU - Belova, E. V.

AU - Zelenovskii, P. S.

AU - Kopyl, S. A.

AU - Kholkin, A. L.

AU - Fridkin, V. M.

PY - 2025

Y1 - 2025

N2 - The paper presents modeling and quantum-chemical calculations of polar and photoelectronic properties of helix-like peptide nanotubes (PNTs) based on dileucine (LL) and diisoleucine (II) with nanochannels filled with water molecules. Physical properties of LL-based PNTs are close to those of diphenylalnine (FF) PNTs, whereas II-based PNTs demonstrate lower polarization but higher band gap corresponding to the absorption in the UV-C region. Moreover, polarization of LL and II PNTs depends on the chirality of the individual dipeptides and is significantly higher for l-LL and l-II, similar to what is observed for FF PNTs. Water molecules in the internal cavity of PNTs weakly affect their polar properties, whereas noticeably change the HOMO and LUMO energy levels and reduce the bang gap.

AB - The paper presents modeling and quantum-chemical calculations of polar and photoelectronic properties of helix-like peptide nanotubes (PNTs) based on dileucine (LL) and diisoleucine (II) with nanochannels filled with water molecules. Physical properties of LL-based PNTs are close to those of diphenylalnine (FF) PNTs, whereas II-based PNTs demonstrate lower polarization but higher band gap corresponding to the absorption in the UV-C region. Moreover, polarization of LL and II PNTs depends on the chirality of the individual dipeptides and is significantly higher for l-LL and l-II, similar to what is observed for FF PNTs. Water molecules in the internal cavity of PNTs weakly affect their polar properties, whereas noticeably change the HOMO and LUMO energy levels and reduce the bang gap.

KW - band gap

KW - chirality

KW - diisoleucine

KW - dileucine

KW - Dipeptides

KW - dipole moment

KW - molecular modeling

KW - peptide nanotubes

KW - polarization

KW - semi-empirical methods

KW - water molecules

UR - https://www.scopus.com/pages/publications/105004305929

U2 - 10.1080/00150193.2024.2327957

DO - 10.1080/00150193.2024.2327957

M3 - Article

AN - SCOPUS:105004305929

SN - 0015-0193

VL - 619

SP - 33

EP - 39

JO - Ferroelectrics

JF - Ferroelectrics

IS - 1-3

ER -

Photoelectronic properties of dileucine and diisoleucine nanotubes with confined water

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Keywords

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