Qualificação academica:
Doutoramento na área de Física de Matéria Condensada pelo Instituto de Física e Técnica “A. F. Ioffe”, São Petersburgo, Rússia. Licenciatura e mestrado em Física pela Universidade Estadual de São Petersburgo, Rússia.
Situação profissional actual:
Investigador principal, Universidade de Aveiro, desde Junho de 1999
Situações profissionais anteriores: Investigador principal, Universidade “Rutgers” (EUA) – 1997 - 1999 Investigador, Instituto Politécnico Federal de Lausana (Suíça) – 1993 - 1997 Aluno de pós-graduação, depois investigador, Instituto de Física e Técnica de A. F. Ioffe (Rússia) –1980 - 1993
Domínio de especialização:
Ciência e Engenharia dos Materiais, Física Aplicada, Física de Matéria Condensada
Actividade profissional: Membro da comissão ferroeléctrica da sociedade IEEE (EUA) Editor associado de revista internacional “Transactions on Ultrasonics, Ferroelectrics and Frequency Control” (EUA). Crítico de várias revistas internacionais nas áreas de ciência de materiais e física aplicada. Organizador e membro do concelho consultivo de conferência Europeia ECAPD. Presidente de sessões de vários congressos internacionais Membro das sociedades “Materials Research Society” e “IEEE” (membro sénior).
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Processamento e propriedades ferroeléctricas e piezoeléctricas dos materiais e nanoestruturas
Sensores e actuadores, MEMS, sistemas "smart"
Caracterização à escala nanométrica de materiais por tecnicas de sonda de varrimento
Materiais multiferroicos e magnetoelectricos, ferrito de bismuto
Materiais para colheta de energia
Biomateriais ferroeletricos e piezoeletricos
Materiais baseado no carbono, grafeno
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EUA Dr. Sergei Kalinin - Oak Ridge National Laboratory Prof. Ramamourthy Ramesh - University of California Berkeley Prof. Ahmad Safari - Rutgers University Profs. Alexei Gruverman & Stephen Ducharme - University of Nebraska-Lincoln Prof. Nazanin Bassiri-Gharb - Georgia Tech Prof. Lane Martin - University of California Berkeley
Canada Prof. Zuo-Guang Ye - Simon Frazer University Prof. Sasha Douplik - Ryerson University
Alemanha Prof. Doru Lupascu, Dr. Vladimir Shvartsman - University of Duisburg-Essen Prof. Gerhard Schneider - Technical University Hamburg-Harburg Dr. Gunnar Suchaneck - Technical University Dresden Dr. Sylvya Gerbhard - Fraunhofer Institute for Ceramic Technologies and Systems (Dresden)
Franca Prof. Michael Karkut - University of Picardie Jules Vernes (Amiens) Dr. Mario Maglione - ICMCB (Bordeaux) Prof. Denis Remiens - IEMN (Lille) Prof. Brahim Dkhil - Ecole Central Paris
Prof. Thomas Cornelius - Aix Marseille University
Inglaterra Prof. Andrew Bell - University of Leeds
Prof. James Scott – University of Cambridge Prof. Andrey Turitsyn - Aston University Prof. Markys Cain – National Physical Laboratory
Irlanda Dr. Brian Rodriguez - University College Dublin Prof. Tofail Syed - University of Limerick Dr. Lynette Keeney - Tyndall National Institute
Russia Prof. Vladimir Shur - Ural Federal University Prof. Vladimir Fridkin - Institute of Crystallography of Russian Academy of Sciences Dr. Nikolay Pertsev & Prof. Sergey Vakhrushev - A. F. Ioffe Physico-Technical Institute Profs. Alexander Sigov, Elena Mishina & Yuri Fetisov - Moscow State Technical University of Radioengineering, Electronics and Automation Dr. Igor Pronin - A. F. Ioffe Physico-Technical Institute
Espanha Drs. Jesus Ricote & Harvey Amorin - Institute of Materials Science of Madrid Prof. Javier Benito & Dr. Dania Olmos - University of Carlos III (Madrid)
Israel Prof. Sidney lang, Ben-Gurion University of the Negev
Republica Checa Drs. Jan Petzelt, Lubmir Yastrabik & Alexander Deyneka - Institute of Physics (Prague)
Lithuania Prof. Juras Banys - Vilnius University
Letonia Prof. Andris Sternberg - Institute of Physics (Riga)
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“Piezo Force Microscopy” – organizer of live forum and PFM workshop on nanoprobenetwork.org
“Advanced topics in PFM” – tutorials within Workshops on Piezoresponse Force Microscopy (Portugal - 2009, Japan - 2009, USA - 2010, 2013, China - 2011, Nanjing - 2013)
“Atomic probes” – tutorial within European School on Multiferroics (Spain, 2008)
“Advanced characterization of ferroelectrics” – tutorial within International Symposium on Integrated Ferroelectrics (France, 2007)
“Integrated piezoelectrics” – tutorial within Winter FAME school (France, 2007)
“Scanning probe microscopy for biologists” – course within master program in bioengineering (2005-2006, University of Aveiro, Portugal)
“Scanning probe microscopy of materials” – lectures within EMMS master program on materials science (2004-2010, University of Aveiro, Portugal)
“Piezoelectric and pyroelectric materials” – lectures within “Functional Materials and Devices Engineering” course of the EMMS master program in materials science (2007-2010, University of Aveiro, Portugal)
“Nanoscale characterization of ferroelectrics” – short summer course (Thailand, 2004)
“Piezoelectric materials” (2003, University of Aveiro, Portugal)
“Principles of scanning probe microscopy” (2002, University of Aveiro, Portugal)
“Properties of materials” (2001, University of Aveiro, Portugal)
“Special ceramics” (1999-2000, University of Aveiro, Portugal)
“Advanced electronic ceramics” (1999, Rutgers University, U.S.A.)
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Piezoactive dense diphenylalanine thin films via solid-phase crystallizationKonstantin Romanyuk, Vladislav Slabov, Denis Alikin, Pavel Zelenovskiy, Maria Rosario P Correia, Kirill Keller, Rute AS Ferreira, Semen Vasilev, Svitlana Kopyl, Andrei Kholkin 2022, Applied Materials Today,
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Local electronic transport across probe/ionic conductor interface in scanning probe microscopyRomanyuk, KN; Alikin, DO; Slautin, BN; Tselev, A; Shur, VY; Kholkin, AL 2021, ULTRAMICROSCOPY, 220,
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Temperature-dependent Raman spectroscopy, domain morphology and photoluminescence studies in lead-free BCZT ceramicCoondoo, I; Panwar, N; Krylova, S; Krylov, A; Alikin, D; Jakka, SK; Turygin, A; Shur, VY; Kholkin, AL 2021, CERAMICS INTERNATIONAL, 47, 2, 2828-2838.
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2D Layered Dipeptide Crystals for Piezoelectric ApplicationsZelenovskii, PS; Romanyuk, K; Liberato, MS; Brandao, P; Ferreira, FF; Kopyl, S; Mafra, LM; Alves, WA; Kholkin, AL 2021, ADVANCED FUNCTIONAL MATERIALS, 31, 43,
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Synthesis and characterisation of lead free BaFe12O19 -(K0.5Na0.5)NbO3 magnetoelectric composites, and the comparison of various synthetic routesMedeiros, MSA; Coondoo, I; Oliveira, FJS; Kholkin, AL; Amaral, JS; Pullar, RC 2021, JOURNAL OF ALLOYS AND COMPOUNDS, 883,
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Nanoscale Piezoelectric Properties and Phase Separation in Pure and La-Doped BiFeO3 Films Prepared by Sol-Gel MethodSemchenko, AV; Sidsky, VV; Bdikin, I; Gaishun, VE; Kopyl, S; Kovalenko, DL; Pakhomov, O; Khakhomov, SA; Kholkin, AL 2021, MATERIALS, 14, 7,
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Piezoresponse in Ferroelectric Materials under Uniform Electric Field of ElectrodesUdalov, A; Alikin, D; Kholkin, A 2021, SENSORS, 21, 11,
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Hybrid Triboelectric-Electromagnetic Nanogenerators for Mechanical Energy Harvesting: A ReviewVidal, JV; Slabov, V; Kholkin, AL; dos Santos, MPS 2021, NANO-MICRO LETTERS, 13, 1,
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Local Piezoelectric Properties of Doped Biomolecular CrystalsKholkin, A; Alikin, D; Shur, V; Dishon, S; Ehre, D; Lubomirsky, I 2021, MATERIALS, 14, 17,
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Statics and dynamics of ferroelectric domains in molecular multiaxial ferroelectric (Me3NOH)(2)[KCo(CN)(6)]Xu, WJ; Romanyuk, K; Zeng, Y; Ushakov, A; Shur, V; Tselev, A; Zhang, WX; Chen, XM; Kholkin, A; Rocha, J 2021, JOURNAL OF MATERIALS CHEMISTRY C, 9, 33, 10741-10748.
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Multiferroic properties of barium strontium titanate ceramics doped with gadolinium and ironEs'kov, AV; Anokhin, AS; Pakhomov, OV; Semenov, AA; Fadeev, E; Dedyk, A; Kholkin, A; Tselev, A; Baranov, IV; Lahderanta, E 2021, FERROELECTRICS, 574, 1, 109-114.
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Local Polarization Reversal by Ion Beam Irradiation in SBN Single Crystals Covered by Dielectric LayerShikhova, VA; Chezganov, DS; Nuraeva, AS; Nebogatikov, MS; Greshnyakov, ED; Pashnina, EA; Anikin, VA; Turygin, AP; Kholkin, AL; Ivleva, LI; Shur, VY 2021, IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, 68, 8, 2824-2831.
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Modeling and physical properties of diphenylalanine peptide nanotubes containing water moleculesBystrov, VS; Coutinho, J; Zhulyabina, OA; Kopyl, SA; Zelenovskiy, PS; Nuraeva, AS; Tverdislov, VA; Filippov, SV; Kholkin, AL; Shur, VY 2021, FERROELECTRICS, 574, 1, 78-91.
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Magnetoelectric effect: principles and applications in biology and medicine- a reviewKopyl, S; Surmenev, R; Surmeneva, M; Fetisov, Y; Kholkin, A 2021, MATERIALS TODAY BIO, 12,
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Modeling of Self-Assembled Peptide Nanotubes and Determination of Their Chirality Sign Based on Dipole Moment CalculationsBystrov, V; Sidorova, A; Lutsenko, A; Shpigun, D; Malyshko, E; Nuraeva, A; Zelenovskiy, P; Kopyl, S; Kholkin, A 2021, NANOMATERIALS, 11, 9,
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Ferroelectricity in synthetic biomaterials: Hydroxyapatite and polypeptides M. Ivanov, S. Kopyl, S.A.M. Tofail, K. Ryan, B.J. Rodriguez, V. Ya. Shur, and A. L. Kholkin In Syed A M Tofail & Joanna Bauer (Eds.), Electrically Active Materials for Medical Devices 2016, 149-166. London: Imperial College Press.
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Energy harvesting with biomaterialsIndrani Coondoo, Svitlana Kopyl, Maxim Ivanov, V. Ya. Shur, and Andrei L. Kholkin In Syed A M Tofail & Joanna Bauer (Eds.), Electrically Active Materials for Medical Devices 2016, 297-316. London: Imperial College Press.
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Dynamic Measurements of Magnetoelectricity in Metglas-Piezocrystal LaminatesJoão V. Vidal, Andrey A. Timopheev, Andrei L. Kholkin, Nikolai A. Sobolev In Ion Tiginyanu, Pavel Topala, Veaceslav Ursaki (Eds.), Nanostructures and Thin Films for Multifunctional Applications: Technology, Properties and Devices 2016, 227-265. Springer International Publishing.
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Engineering the Magnetoelectric Response in Piezocrystal-Based Magnetoelectrics: Basic Theory, Choice of Materials, Model CalculationsJoão V. Vidal, Andrey A. Timopheev, Andrei L. Kholkin, Nikolai A. Sobolev In Ion Tiginyanu, Pavel Topala, Veaceslav Ursaki (Eds.), Nanostructures and Thin Films for Multifunctional Applications: Technology, Properties and Devices 2016, 189-226. Springer International Publishing.
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Chapter 29: Piezoresponse Force Microscopy for BioelectromechanicsKate Ryan, Sabine M. Neumayer, Denise Denning, Jill Guyonnet, Ensieh Hosseini, Arwa Bazaid, Andrei L. Kholkin, and Brian J. Rodriguez In Syed A M Tofail, Joanna Bauer (Eds.), Electrically Active Materials for Medical Devices 2016, 435-450. Imperial College Press.
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Piezoresponse Force MicroscopyKalinin SV, Rodriguez BJ, Kholkin AL In Bhushan, Bharat (Eds.), Encyclopedia of Nanotechnology 2012, London: Springer.
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Nanoscale investigation of polycrystalline ferroelectric materials via piezoresponse force microscopyShvartsman VV, Kholkin AL In Pardo, Lorena; Ricote, Jesús (Eds.), Multifunctional Polycrystalline Ferroelectrics: Processing and Properties, Springer Series in Materials Science 2012, Dodrecht: Springer.
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Piezoelectricity and Ferroelectricity in Biomaterials: From Proteins to Self-assembled Peptide NanotubesBystrov, VS; Bdikin, IK; Heredia, A; Pullar, RC; Mishina, ED; Sigov, AS; Kholkin, AL In Ciofani, Gianni; Menciassi, Arianna (Eds.), Piezoelectric Nanomaterials for Biomedical Applications 2012, New York: Springer.
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Piezoresponse Force MicroscopyKholkin AL, Kiselev DA, Heredia A In K. H. Jürgen Buschow, Robert W. Cahn, Merton C. Flemings, Bernard Ilschner (print), Edward J. Kramer, Subhash Mahajan, and Patrick Veyssière (updates) (Eds.), The Encyclopedia of Materials: Science and Technology 2011, New York: Elsevier.
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Energy harvesting for small miniaturized systemsKholkin AL, Lopes RP Energy Harvesting with Piezoelectric and Pyroelectric Materials 2011, Zurich: Trans Tech Publications.
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Ferroelectric Domains and Grain engineering in SrBi2Ta2O9Amorin H, Condoo I, Costa E, Kholkin AL Lead-Free Piezoelectrics 2011, New York: Springer.
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Polar structures in Relaxors by Piezoresponse Force MicroscopyShvartsman VV, Kleemann W, Kiselev DA, Bdikin IK, Kholkin AL In SV Kalinin and A Gruverman (Eds.), Scanning Probe Microscopy of Functional Materials. 2011, 345-383. New York: Springer.
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Search for increased performance in BiFeO3: effect of A-site substitutionKhomchenko VA, Kholkin AL In T Frías and V Maestas (Eds.), Bulk Materials: Research, Technology and Applications. 2010, 335-348. New York: Nova Science Publishers.
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Substitution- Induced Structural, Ferroelectric and Magnetic Phase Transitions in Bi1-xGdxFeO3 MultiferroicsKhomchenko VA, Kholkin AL In Kenneth B. Tamayo (Eds.), Magnetic Properties of Solids 2009, Nova Science Publishers.
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Piezoelectricity and crystal symmetryKholkin AL, Pertsev NA, Goltsev AV In Safari A, Akdogan K (Eds.), Piezoelectric and Acoustic Materials for Transducer Applications 2008, 17-38. Springer US.
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Smart ferroelectric ceramics for transducer applicationsKholkin AL, Kiselev DA, Kholkine LA, Safari A In Mel Shwartz (Eds.), Smart Materials 2008, 592-9.1-9.11. CRC Press.
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Review of Ferroelectric Domain Imaging by Piezoresponse Force Microscopy Kholkin A L , Kalinin S V, Roelofs A In Kalinin SV, Gruverman A (Eds.), Scanning Probe Microscopy - Electrical and Electromechanical Phenomena at the Nanoscale 2007, 173-214. Springer.
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Nanoscale Structure of Cellulosic Materials: Challenges and Opportunities for AFMPaiva AT , Sequeira SM, Evtuguin DV, Kholkin AL, Portugal I In Mendez-Vilas A, Dias J (Eds.), Modern Research and Educational Topics in Microscopy 2007, 1, 726-733. Formatex.
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Piezoelectric Thick Film Composites: Processing and ApplicationsKholkin A L, Wu A, Vilarnho PM Recent Research Developments in Materials Science 2004, 5, 1-24. Korela India: Research Signpost Publisher.
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Materiais PiezoelectricosKholkin A L, Baptista J L In Fontes MA, Ferreira PJ (Eds.), Materiais Dois Mil 2003, 6.6 Lisbon: Ist Press.
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