Projects
Publications
Ferri-ionic coupling in CuInP2S6 nanoflakes: Polarization states and controllable negative capacitance
Anna N. Morozovska , Sergei V. Kalinin, Eugene A. Eliseev, Svitlana Kopyl, Yulian M. Vysochanskii, and Dean R. Evans
2024, Physical Review Applied.
Quantitative 3-D Optical Birefringence in Peptide Bioelectrets
Charlie O’Mahony , Aladin Mani , Svitlana Kopyl , Daria Vasileva, Semen Vasilev , Vladimir Y. Shur, Andrei Kholkin , Christophe Silien, and Syed A. M. Tofail
2024, IEEE TRANSACTIONS ON DIELECTRICS AND ELECTRICAL INSULATION.
Detection of helical water flows in sub-nanometer channels
Pavel Zelenovskii, Márcio Soares, Carlos Bornes, Ildefonso Marin-Montesinos, Mariana Sardo, Svitlana Kopyl, Andrei Kholkin, Luís Mafra and Filipe Figueiredo
2024, Nature Communications , 15.
Polar and photoelectronic properties of dileucine and diisoleucine nanotubes
VS Bystrov, EV Paramonova, OR Ledeneva, EV Belova, PS Zelenovskiy, SA Kopyl, VM Fridkin
2024, Ferroelectrics.
Piezoactive Bioorganic Diphenylalanine Films: Mechanism of Phase Formation
Alikin, D; Yuzhakov, V; Semiletova, L; Slabov, V; Kuznetsov, D; Gimadeeva, L; Shur, V; Kopyl, S; Kholkin, A
2023, ACS BIOMATERIALS SCIENCE & ENGINEERING, 9, 12, 6715-6723.
Photoelectronic Properties of Chiral Self-Assembled Diphenylalanine Nanotubes: A Computational Study
Bystrov, V; Paramonova, E; Zelenovskii, P; Kopyl, S; Shen, H; Lin, T; Fridkin, V
2023, SYMMETRY-BASEL, 15, 2.
Ferroelectricity in glycine: A mini-review
Zelenovskii, PS; Vasileva, DS; Vasilev, SG; Kopyl, S; Kholkin, A
2022, FRONTIERS IN MATERIALS, 9.
Piezoactive dense diphenylalanine thin films via solid-phase crystallization
Romanyuk, K; Slabov, V; Alikin, D; Zelenovskiy, P; Correia, MRP; Keller, K; Ferreira, RAS; Vasilev, S; Kopyl, S; Kholkin, A
2022, APPLIED MATERIALS TODAY, 26.
Triboelectric Generator Based on Oriented Self-Assembled Peptide Microbelts
Slabov, V; Vidal, J; Zelenovskii, P; Kopyl, S; dos Santos, MPS; Kholkin, A
2022, NANOMATERIALS, 12, 22.
Nanoconfined water governs polarization‐related properties of self‐assembled peptide nanotubes
Ferid Salehli, Abuzer O. Aydin, Drahomir Chovan, Svitlana Kopyl Vladimir Bystrov Damien Thompson Syed A.M. Tofail Andrei Kholkin
2021, NanoSelect.
Nanomaterials Based on Peptide Nanotubes with Graphene and Ferroelectric Polymers Layers: Modelling and Numerical Studies of Photoelectronic Properties
In Andreas Öchsner, Holm Altenbach (Eds.), Engineering Design Applications V: Structures, Materials and Processes
Bystrov V.S.; Paramonova E.V.; Zelenovskiy P.S.; Kopyl S.A.; Meng X.; Shen H.; Lin T.; Fridkin V.M.
2023, Advanced Structured Materials, 171, 115-123, Springer Science and Business Media Deutschland GmbH.
ISBN:
978-3-031-26465-8
Electrocaloric-based applications: Challenges and perspectives
In A. L. Kholkin, O. V. Pakhomov, A. A. Semenov, A. Tselev (Eds.), The Electrocaloric Effect: Materials and Applications
Kholkin A.L.; Kopyl S.; Tselev A.; Suchaneck G.
2023, The Electrocaloric Effect: Materials and Applications, 407-425, Elsevier.
ISBN:
978-012821647-7; 978-012821648-4
Piezoelectricity in Self-Assembled Peptides: A New Way towards Electricity Generation at Nanoscale
Nanogenerators
Vladislav Slabov, Svitlana Kopyl, Marco P. Soares dos Santos and Andrei Kholkin
2019.
ISBN:
978-1-83881-060-3
Energy harvesting with biomaterials
In Syed A M Tofail & Joanna Bauer (Eds.), Electrically Active Materials for Medical Devices
Indrani Coondoo, Svitlana Kopyl, Maxim Ivanov, V. Ya. Shur, and Andrei L. Kholkin
2016, 297-316, London, Imperial College Press.
ISBN:
978-1-78326-986-0
Ferroelectricity in synthetic biomaterials: Hydroxyapatite and polypeptides
In Syed A M Tofail & Joanna Bauer (Eds.), Electrically Active Materials for Medical Devices
M. Ivanov, S. Kopyl, S.A.M. Tofail, K. Ryan, B.J. Rodriguez, V. Ya. Shur, and A. L. Kholkin
2016, 149-166, London, Imperial College Press.
ISBN:
978-1-78326-986-0