Ekaterina Khestanova

2.7k citations

21 papers · 1.6k indexed · 1 hit paper · h-index 15

Atomic and Molecular Physics, and Optics top 5%
- Strong Light-Matter Interactions 4
- Topological Materials and Phenomena 4
- Quantum and electron transport phenomena 3
Materials Chemistry top 5%
- 2D Materials and Applications 9
- Graphene research and applications 7
- MXene and MAX Phase Materials 4
- Ferroelectric and Piezoelectric Materials 3
Condensed Matter Physics top 5%
Electronic, Optical and Magnetic Materials top 10%
- Multiferroics and related materials 3
Structural Biology top 10%

Co-authors: I. V. Grigorieva A. K. Geǐm Laura Fumagalli F. Guinea Gregory Auton D. A. Bandurin Kostya S. Novoselov Л. А. Пономаренко
Cited by: Atomic and Molecular Physics, and Optics Materials Chemistry Condensed Matter Physics
Journals: Nano Letters (4 papers)Advanced Functional Materials (2 papers)Science (2 papers)
Partner nations: United Kingdom Russia Spain

In The Last Decade

Ekaterina Khestanova

21 papers receiving 1.6k citations

Hit Papers

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Peers

Countries citing papers authored by Ekaterina Khestanova

Since Specialization

Citations

This map shows the geographic impact of Ekaterina Khestanova's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Ekaterina Khestanova with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Ekaterina Khestanova more than expected).

Fields of papers citing papers by Ekaterina Khestanova

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Ekaterina Khestanova. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Ekaterina Khestanova. The network helps show where Ekaterina Khestanova may publish in the future.

Co-authorship network

The 25 scholars most cited alongside Ekaterina Khestanova, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Ekaterina Khestanova Line = papers co-authored together Ekaterina Khestanova links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Electrostatic Control of Nonlinear Photonic-Crystal Polaritons in a Monolayer Semiconductor Nano Letters ·Ekaterina Khestanova,V. Shahnazaryan,Valerii K. Kozin,Alice Garcia,D. N. Krizhanovskii,M. S. Skolnick,I. A. Shelykh,Ivan Iorsh,Vasily Kravtsov	2024	4
2	Tunable interlayer excitons and switchable interlayer trions via dynamic near-field cavity Light Science & Applications ·Yeonjeong Koo,Hyeongwoo Lee,Tatiana Ivanova,d'Iberville Fortier,Vasili Perebeinos,Ekaterina Khestanova,Vasily Kravtsov,Kyoung‐Duck Park	2023	28
3	Robustness of Momentum-Indirect Interlayer Excitons in MoS₂/WSe₂ Heterostructure against Charge Carrier Doping ACS Photonics ·Ekaterina Khestanova,Tatiana Ivanova,Roland Gillen,A. D’Elia,Thea Arabelle S. Balidoy,Y.T. Chuah,A. Grüneis,Vasily Kravtsov,Włodek Strupiński,Janina Maultzsch,Viktor Kandyba,Mattia Cattelan,Alexei Barinov,J. Ávila,Pavel Dudin,Boris V. Senkovskiy	2023	2
4	Revealing Intrinsic Superconductivity of the Nb/BiSbTe₂Se Interface Advanced Functional Materials ·廉松山,Marius-Constantin Dinu,Mah Mc Harol Djeokeng,C‐H. Chang,С. Н. Козлов,Alexander Fedorov,D. V. Vyalikh,Ekaterina Khestanova,M. Yu. Kupriyanov,V. S. Stolyarov	2022	9
5	Freestanding complex-oxide membranes Journal of Physics Condensed Matter ·David Pesquera,Abel Fernández,Ekaterina Khestanova,Lane W. Martin	2022	31
6	Experimental observation of topological Z2 exciton-polaritons in transition metal dichalcogenide monolayers Nature Communications ·Mengyao Li,Ivan Sinev,Fedor A. Benimetskiy,Michael Calamba,Ekaterina Khestanova,Svetlana Kiriushechkina,Anton Vakulenko,Sriram Guddala,M. S. Skolnick,Vinod M. Menon,D. N. Krizhanovskii,Andrea Alù,A. K. Samusev,Alexander B. Khanikaev	2021	72
7	Spin–valley dynamics in alloy-based transition metal dichalcogenide heterobilayers 2D Materials ·Vasily Kravtsov,Jinkang 임진강Lim,R. V. Cherbunin,S. C. Vasistha,Armando Genco,Keizha Aura Aliahadi,Evgeny M. Alexeev,Tatiana Ivanova,Ekaterina Khestanova,I. A. Shelykh,A. I. Tartakovskii,M. S. Skolnick,D. N. Krizhanovskii,Ivan Iorsh	2020	10
8	Strong coupling of excitons in 2D MoSe₂/hBN heterostructure with optical bound states in the continuum Journal of Physics Conference Series ·Fedor A. Benimetskiy,Vasily Kravtsov,Ekaterina Khestanova,Ivan S. Mukhin,Ivan Sinev,A. K. Samusev,I. A. Shelykh,D. N. Krizhanovskii,M. S. Skolnick,Ivan Iorsh	2020	1
9	Nonlinear polaritons in a monolayer semiconductor coupled to optical bound states in the continuum Light Science & Applications ·Vasily Kravtsov,Ekaterina Khestanova,Fedor A. Benimetskiy,Tatiana Ivanova,A. K. Samusev,Ivan Sinev,Dmitry Pidgayko,А М Можаров,Ivan S. Mukhin,Maksim S. Lozhkin,Yury V. Kapitonov,A. S. Brichkin,V. D. Kulakovskiĭ,I. A. Shelykh,A. I. Tartakovskii,P. M. Walker,M. S. Skolnick,D. N. Krizhanovskii,Ivan Iorsh	2020	175
10	Enhanced Superconductivity in Few-Layer TaS₂ due to Healing by Oxygenation Nano Letters ·J Bekaert,Ekaterina Khestanova,David G. Hopkinson,John Birkbeck,Nick Clark,Mengjian Zhu,D. A. Bandurin,Roman Gorbachev,Simon M. Fairclough,Yichao Zou,Matthew J. Hamer,Daniel Terry,Jonathan J. P. Peters,Ana M. Sánchez,B. Partoens,Sarah J. Haigh,M. V. Miloševıć,I. V. Grigorieva	2020	26
11	Large magnetoelectric coupling in multiferroic oxide heterostructures assembled via epitaxial lift-off Apollo (University of Cambridge) ·David Pesquera,Ekaterina Khestanova,M. Ghidini,Sen Zhang,Aidan P. Rooney,Francesco Maccherozzi,Patricia Riego,S. Farokhipoor,F.Richard Beckwith,Xavier Moya,M. E. Vickers,N. A. Stelmashenko,Sarah J. Haigh,S. S. Dhesi,N. D. Mathur	2019	68
12	High-temperature quantum oscillations caused by recurring Bloch states in graphene superlattices Science ·Roshan Krishna Kumar,X. Chen,Gregory Auton,Artem Mishchenko,D. A. Bandurin,С. В. Морозов,Yang Cao,Ekaterina Khestanova,M. Ben Shalom,Andrey V. Kretinin,Kostya S. Novoselov,L. Eaves,I. V. Grigorieva,Л. А. Пономаренко,Vladimir I. Fal’ko,A. K. Geǐm	2017	87
13	Atomic Defects and Doping of Monolayer NbSe₂ ACS Nano ·Lan Nguyen,Hannu‐Pekka Komsa,Ekaterina Khestanova,Reza J. Kashtiban,Jonathan J. P. Peters,S. D. Lawlor,Ana M. Sánchez,Jeremy Sloan,Roman Gorbachev,I. V. Grigorieva,Arkady V. Krasheninnikov,Sarah J. Haigh	2017	72
14	Untangling Electrostatic and Strain Effects on the Polarization of Ferroelectric Superlattices Advanced Functional Materials ·Ekaterina Khestanova,N. Dix,Ignasi Fina,Mateusz Ścigaj,José Manuel Rebled,César Magén,Sònia Estradé,F. Peiró,G. Herranz,J. Fontcuberta,F. Sánchez	2016	25
15	Universal shape and pressure inside bubbles appearing in van der Waals heterostructures Nature Communications ·Ekaterina Khestanova,F. Guinea,Laura Fumagalli,A. K. Geǐm,I. V. Grigorieva	2016	272
16	Negative local resistance caused by viscous electron backflow in graphenebreakdown → Science ·D. A. Bandurin,Iacopo Torre,Roshan Krishna Kumar,M. Ben Shalom,Andrea Tomadin,Alessandro Principi,Gregory Auton,Ekaterina Khestanova,Kostya S. Novoselov,I. V. Grigorieva,Л. А. Пономаренко,A. K. Geǐm,Marco Polini	2016	457
17	Magnetotransport in single-layer graphene in a large parallel magnetic field Physical review. B. ·H R Chen,S. Wiedmann,M. Titov,A. K. Geǐm,Roman Gorbachev,Ekaterina Khestanova,Artem Mishchenko,Kostya S. Novoselov,J.C. Maan,U. Zeitler	2016	12
18	Superconductivity in Potassium-Doped Metallic Polymorphs of MoS₂ Nano Letters ·Renyan Zhang,I-Ling Tsai,杜常贺,Ekaterina Khestanova,John Waters,I. V. Grigorieva	2015	130
19	Total Ionizing Dose Effects on hBN Encapsulated Graphene Devices IEEE Transactions on Nuclear Science ·Cher Xuan Zhang,Bin Wang,D.L. Saunders,En Xia Zhang,Daniel M. Fleetwood,Michael L. Alles,Ronald D. Schrimpf,Aidan P. Rooney,Ekaterina Khestanova,Gregory Auton,Roman Gorbachev,Sarah J. Haigh,Sokrates T. Pantelides	2014	25
20	Effect of laser light polarisation on the dc photovoltage response of nanographite films Quantum Electronics ·G. M. Mikheev,James Keesling,Petr A. Obraztsov,Ekaterina Khestanova,S. V. Garnov	2010	18

About Ekaterina Khestanova

Ekaterina Khestanova is a scholar working on Materials Chemistry, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Biomedical Engineering and Ophthalmology, having authored 21 papers that have together received 1.6k indexed citations. Recurring topics across this work include 2D Materials and Applications (9 papers), Graphene research and applications (7 papers), MXene and MAX Phase Materials (4 papers), Strong Light-Matter Interactions (4 papers), Topological Materials and Phenomena (4 papers), Ferroelectric and Piezoelectric Materials (3 papers), Quantum and electron transport phenomena (3 papers) and Multiferroics and related materials (3 papers). The work is most often cited by research in Atomic and Molecular Physics, and Optics (762 citations), Materials Chemistry (1.0k citations), Condensed Matter Physics (194 citations), Electronic, Optical and Magnetic Materials (263 citations) and Structural Biology (13 citations). Ekaterina Khestanova has collaborated with scholars based in United Kingdom, Russia and Spain. Frequent co-authors include I. V. Grigorieva, A. K. Geǐm, Laura Fumagalli, F. Guinea, Gregory Auton, D. A. Bandurin, Kostya S. Novoselov, Л. А. Пономаренко, Roshan Krishna Kumar and M. Ben Shalom. Their work appears in journals such as Nano Letters, Advanced Functional Materials, Science, Nature Communications and Light Science & Applications.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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