Andrei Kholkin

Investigador Principal

Perfil biográfico

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).

Interesses científicos

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

Principais colaboradores

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)

Actividade pedagógica

“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.)

Supervisões em Curso

Projectos

Acção Integrada Luso Alemã A-26/11 (Acção Integrada Luso Alemã A-26/11)

CoordenadorOther National

Acção Integrada Luso-Espanhola E-45/11 (Acção Integrada Luso-Espanhola E-45/11)

CoordenadorOther National

Additive Manufacturing of 3D Microfluidic MEMS for Lab-on-a-Chip applications - M3DLoC (M3DLoC)

ParticipanteEuropean Comission
MEDLOC aims at the employment of multi-material 3D printing technologies for the large-scale fabrication of microfluidic MEMS for lab-on-a-chip and sensing applications. The concept is based on the combination of multimaterial direct-ink-writing method and an extrusion-based 3D printing pilot line, in order to fabricate microstructured detection...

Auto-organização de biomateriais e materiais organicos induzida pela polarização de polímeros ferroeléctricos (PTDC/CTM/73030/2006)

CoordenadorFundação para a Ciência e a Tecnologia
auto-organização polimeros ferroeléctrico nanotecnologia

BIOTEX - Têxteis Bioactivos por incorporação de biopolímeros funcionais (POCI/CTM/58312/2004)

ParticipanteFundação para a Ciência e a Tecnologia
Polyester and polypropylene fibres Chitosan Anti-microbial activity Textile dyeing

Cerâmicos e filmes de ferroeléctricos incipientes para aplicações em condensadores sintonizáveis (POCTI/CTM/35542/1999)

ParticipanteFundação para a Ciência e a Tecnologia
Ferroeléctricos Cerâmicos Filmes Sintonização

CIMMEC - Coupling in Multiferroic and MagnetoElectric Composites (CIMMEC)

CoordenadorEuropean Comission
This proposal has 2 objectives: to carry out a successful scientific project, and to develop and broaden the scientific and transferable skills of the researcher, as a first step in establishing them as an independent researcher. Scientific goal: to make novel composite ceramics with magnetoelectric (ME) / multiferroic (MF) coupling. ME material...

Degradacao em baterias de litio: abordagem por Microscopia de Zonda de Varrimento (LI-SPM)

CoordenadorFundação para a Ciência e a Tecnologia
Baterias de Li; Microscopia de Deformacao Eletroquímica; Microscopia de Forca por Sonda Kelvin; Degradacao

Desenvolvimento de novos materiais piezoele?tricos baseados em de pepti?deos auto- organizado nanoestruturados (BioPiezo)

ParticipanteFundação para a Ciência e a Tecnologia

Desenvolvimento de novos materiais sem chumbo para colheita de energia piezoeléctrica (PTDC/CTM-CER/115085/2009)

CoordenadorFundação para a Ciência e a Tecnologia
piezoelectricidade colheita de energia sem chumbo cerâmica

Development and characterization of novel multiferroic materials and structures (FLAD 600-06/2006)

CoordenadorOther National

Estudos da solidificação em polímeros e nanocompósitos sob acção de esforços de corte (PTDC/CTM/68614/2006)

CoordenadorFundação para a Ciência e a Tecnologia
estruturas precursoras cristalização sob a acção de corte orientação nanocompósitos

Filmes ferroeléctricos fotosensíveis para aplicações electrónicas (POCTI/CTM/35502/1999)

CoordenadorFundação para a Ciência e a Tecnologia
sol-gel propriedades fotoeléctricas filmes finos fotoestricção

Implantes Inteligentes usando bionanocompósitos - SIMBIO (NANO/NMed-SD/0156/2007)

ParticipanteFundação para a Ciência e a Tecnologia
biocomposites nanocomposites smart materials smart implants

Investigação á escala nanométrica de ferroeléctricos e materiais afins (REEQ/1187/CTM/2005)

ParticipanteFundação para a Ciência e a Tecnologia
Neste projecto, por recurso à utilização de microscopia de varrimento de prova (Scanning probe microscopy, SPM), especialmente modificada para visualização à escala nanométrica de domínios, mapeamento da constante dieléctrica, medidas de histerese ferroeléctrica, entre outras propriedades, caracterizaram-se ferroeléctricos e materiais afins à es...

Investigação à escala nanométrica do comportamento de fadiga de filmes finos ferroeléctricos (POCI/CTM/61071/2004)

ParticipanteFundação para a Ciência e a Tecnologia
Fadiga Filmes finos Ferroeléctricos Nanométricos

Micro e nanocompósitos multiferroicos, magnetoeléctricos e metálicos baseados em polímeros electroactivos para aplicações avançadas (PTDC/CTM/69316/2006)

ParticipanteFundação para a Ciência e a Tecnologia
magnetoelectrics electro-optical electroactive sensors and actuators

MULTICERAL - Multifunctional ceramic layers with high electromagnetoelastic coupling in complex geometries (MULTICERAL)

CoordenadorEuropean Comission
MULTICERALis a joint effort of eight European research institutions/universities from six countries (UK, Germany, France, Portugal, Slovenia, Lithuania) aimed at the development, detailed characterization, and evaluation of novel multifunctional thin-film materials based on ferroelectrics [Pb(Zr,Ti)O3, BaTiO3, SrBi2Ta2O9], magnetics and shape me...

Multiferroicos e magnetoeléctricos para spintrónica: barreiras e interfaces (PTDC/CTM/099415/2008)

ParticipanteFundação para a Ciência e a Tecnologia
Multiferroic and magnetoelectric materials Heterostructures Spin transport Tunneling

MULTIFOX: Modificação e estudo à escala nanométrica de óxidos multiferróicos (PTDC/FIS/105416/2008)

ParticipanteFundação para a Ciência e a Tecnologia
multiferróico magnético microscopia força piezoeléctrica materiais nanoestruturados

Nanoelectromêcanica de grafeno (PTDC/CTM-NAN/121313/2010)

CoordenadorFundação para a Ciência e a Tecnologia
grafeno tensão microscopia de zonda de varrimento ferroelectricidade

NANOMOTION - Nanoelectromechanical Motion in Functional Materials (NANOMOTION)

CoordenadorEuropean Comission
The focus of modern solid-state technology is currently shifting from the single property (electric, magnetic, and elastic) to a coupling of different fields where a coupled materials response can be either used for their characterization or as a basis of novel applications. In the last few years, it became clear that the coupled electromechanic...

Nanoquímica de compósitos magnéticos/luminiscentes para aplicações de diagnóstico médico in vitro (PTDC/QUI/67712/2006)

ParticipanteFundação para a Ciência e a Tecnologia
Nanopartículas Nanocompósitos Magnetismo/Luminescência Bioconjugação de anticorpos

Novos filmes dielEctricos de BST para memorias dinamicas de acesso aleatoriode elevada densidade (POCTI/CTM/47285/2002)

ParticipanteFundação para a Ciência e a Tecnologia
sol-gel memorias dinamicas dielectric films BST

Novos Filmes Ferroeléctricos Livres de Chumbo por PLD para Optoelectrónica - NOLEAD (PTDC/FIS/108025/2008)

Coordenador LocalFundação para a Ciência e a Tecnologia
Ferroeléctricos sem chumbo Efeito electro-óptico Piezo-electricidade Óptica integrada

Novos óxidos de aurivillius para applicações microelectrónica (PTDC/CTM/71643/2006)

ParticipanteFundação para a Ciência e a Tecnologia
óxidos de Aurivillius thin films solgel RF sputtering

Origem do estado polar em relaxores por microsocopia da sonda de varrimento (PTDC/FIS/81442/2006)

CoordenadorFundação para a Ciência e a Tecnologia
Relaxores Ferroeléctricos Microscopia da Sonda de Varrimento Nanotecnologia

Perovsquites de bismuto com estrutura em camada para aplicações piezoeléctricas e em memórias (POCTI/CTM/35444/1999)

ParticipanteFundação para a Ciência e a Tecnologia
piezoeléctrico sensores e actuadores memória não volátil fadiga

Phase transitions and ferroelectricity in self-assembled peptides nanotubes (TUBITAK)

CoordenadorFundação para a Ciência e a Tecnologia
nanotubos de peptídeos; auto-organização; transições de fase; espectroscopia dielétrica

PodiTrodi - Technology Platform for Point-of-Care Diagnostics for Tropical Diseases (PodiTrodi-EU)

Coordenador LocalEuropean Comission
The diagnosis and discrimination of infectious diseases (such as leishmaniasis, dengue, malaria, HIV, chagas) in geographic regions with poor or low-density medical infrastructure is of high socioeconomic importance. While so-called "rapid in-vitro diagnostic (ivD) tests" for single diseases are already on the market, more complex analytical pro...

Polarization-driven self-assembly of organic and biomaterials using ultra-thin ferroelectric polymers (INTAS 2005-1000008-8091)

CoordenadorEuropean Comission
At present, there is an urgent need of novel chemical and physical techniques for assembling a wide range of functional materials with complex architectures. They are especially important in biology and microelectronics, where a wide range of applications is envisaged in nearest future. We will explore in this Project an innovative approach that...

Processamento e caracterização de cerâmicas multiferroicas para aplicações em sensores e actuadores (PTDC/CTM/67575/2006)

ParticipanteFundação para a Ciência e a Tecnologia
Multiferroic materials Magnetoelectric effect spin-lattice coupling Granular materials

Processamento e caracterização de polímeros electroactivos e compósitos baseados em PVDF para aplicações em microelectronica, sensores e actuadores (POCI/CTM/59425/2004)

ParticipanteFundação para a Ciência e a Tecnologia
piezoelectricity sensors and actuators polymers and composites material processing and characterisation

Propriedades dieléctricas e dinânica da rede de materiais granulantes (POCTI/CTM/45284/2002)

ParticipanteFundação para a Ciência e a Tecnologia
Cerâmicas Defeitos Dieléctricos Relaxadores

Revestimentos espessos compositos para dispositivos piezoelectricos (POCTI/CTM/44732/2002)

ParticipanteFundação para a Ciência e a Tecnologia
sol-gel filmes espessos transductores piezoeléctricos actuadores

Synthesis and characterization of multiferroic nanostructures synthetised via novel non-aqueous sol-gel routes (PTDC/CTM/65667/2006)

ParticipanteFundação para a Ciência e a Tecnologia
multiferroic materials non-aqueous sol-gel nanoparticles thin films

Transition metal oxides with metastable phases: a way towards superior ferroic properties (TransFerr)

Coordenador LocalEuropean Comission
The main objective of the project is the development of complex transition metal oxides with perovskite-like structure having improved and controllable (multi)ferroic properties. The mentioned materials are manganites and ferrites with optimal composition having distinct magnetization, polarization, (magneto) transport properties or mag...

Publicações

The strain-induced transitions of the piezoelectric, pyroelectric, and electrocaloric properties of the CuInP2S6 films

Morozovska, AN; Eliseev, EA; Yurchenko, LP; Laguta, VV; Liu, YT; Kalinin, SV; Kholkin, AL; Vysochanskii, YM
2023, AIP ADVANCES, 13, 12.

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.

A hybrid double perovskite ferroelastic exhibiting the highest number of orientation states

Xu, WJ; Zelenovskii, P; Tselev, A; Verissimo, L; Romanyuk, K; Yuan, W; Zhang, WX; Kholkin, A; Rocha, J
2023, CHEMICAL COMMUNICATIONS, 59, 75, 11264-11267.

Quantitative Characterization of Local Thermal Properties in Thermoelectric Ceramics Using "Jumping-Mode" Scanning Thermal Microscopy

Alikin, D; Zakharchuk, K; Xie, WJ; Romanyuk, K; Pereira, MJ; Arias-Serrano, BI; Weidenkaff, A; Kholkin, A; Kovalevsky, AV; Tselev, A
2023, SMALL METHODS, 7, 4.

Molecular Design of a Metal-Nitrosyl Ferroelectric with Reversible Photoisomerization

Xu, WJ; Li, MF; Garcia, AR; Romanyuk, K; Martinho, JMG; Zelenovskii, P; Tselev, A; Verissimo, L; Zhang, WX; Chen, XM; Kholkin, A; Rocha, J
2023, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 145, 25, 13663-13673.

A comprehensive study of the structure and piezoelectric response of biodegradable polyhydroxybutyrate-based films for tissue engineering applications

Chernozem, RV; Pariy, IO; Pryadko, A; Bonartsev, AP; Voinova, VV; Zhuikov, VA; Makhina, TK; Bonartseva, GA; Shaitan, KV; Shvartsman, VV; Lupascu, DC; Romanyuk, KN; Kholkin, AL; Surmenev, RA; Surmeneva, MA
2022, POLYMER JOURNAL, 54, 10, 1225-1236.

Automated electromagnetic generator with self-adaptive structure by coil switching

Vidal, JV; Rolo, P; Carneiro, PMR; Peres, I; Kholkin, AL; dos Santos, MPS
2022, APPLIED ENERGY, 325.

Core-Shell Magnetoactive PHB/Gelatin/Magnetite Composite Electrospun Scaffolds for Biomedical Applications

Pryadko, AS; Botvin, VV; Mukhortova, YR; Pariy, I; Wagner, DV; Laktionov, PP; Chernonosova, VS; Chelobanov, BP; Chernozem, RV; Surmeneva, MA; Kholkin, AL; Surmenev, RA
2022, POLYMERS, 14, 3.

Engineering of Pyroelectric Crystals Decoupled from Piezoelectricity as Illustrated by Doped alpha-Glycine

Ben Ami, SD; Ehre, D; Ushakov, A; Mehlman, T; Brandis, A; Alikin, D; Shur, V; Kholkin, A; Lahav, M; Lubomirsky, I
2022, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 61, 49.

Exploring Charged Defects in Ferroelectrics by the Switching Spectroscopy Piezoresponse Force Microscopy

Alikin, D; Abramov, A; Turygin, A; Ievlev, A; Pryakhina, V; Karpinsky, D; Hu, QY; Jin, L; Shur, V; Tselev, A; Kholkin, A
2022, SMALL METHODS, 6, 2.

Introduction to the electrocaloric effect

In A. L. Kholkin, O. V. Pakhomov, A. A. Semenov, A. Tselev (Eds.), The Electrocaloric Effect: Materials and Applications
Kholkin A.L.; Tselev A.; Semenov A.A.; Pakhomov O.V.
2023, The Electrocaloric Effect: Materials and Applications, 3-7, Elsevier.
ISBN: 978-012821647-7; 978-012821648-4

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

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

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

Dynamic Measurements of Magnetoelectricity in Metglas-Piezocrystal Laminates

In Ion Tiginyanu, Pavel Topala, Veaceslav Ursaki (Eds.), Nanostructures and Thin Films for Multifunctional Applications: Technology, Properties and Devices
João V. Vidal, Andrey A. Timopheev, Andrei L. Kholkin, Nikolai A. Sobolev
2016, 227-265, Springer International Publishing.
ISBN: 978-3-319-30197-6

Engineering the Magnetoelectric Response in Piezocrystal-Based Magnetoelectrics: Basic Theory, Choice of Materials, Model Calculations

In Ion Tiginyanu, Pavel Topala, Veaceslav Ursaki (Eds.), Nanostructures and Thin Films for Multifunctional Applications: Technology, Properties and Devices
João V. Vidal, Andrey A. Timopheev, Andrei L. Kholkin, Nikolai A. Sobolev
2016, 189-226, Springer International Publishing.
ISBN: 978-3-319-30197-6

Chapter 29: Piezoresponse Force Microscopy for Bioelectromechanics

In Syed A M Tofail, Joanna Bauer (Eds.), Electrically Active Materials for Medical Devices
Kate Ryan, Sabine M. Neumayer, Denise Denning, Jill Guyonnet, Ensieh Hosseini, Arwa Bazaid, Andrei L. Kholkin, and Brian J. Rodriguez
2016, 435-450, Imperial College Press.
ISBN: 978-1-783-26986-0

Piezoresponse Force Microscopy

In Bhushan, Bharat (Eds.), Encyclopedia of Nanotechnology
Kalinin SV, Rodriguez BJ, Kholkin AL
2012, London, Springer.
ISBN: 978-90-481-9750-7

Nanoscale investigation of polycrystalline ferroelectric materials via piezoresponse force microscopy

In Pardo, Lorena; Ricote, Jesús (Eds.), Multifunctional Polycrystalline Ferroelectrics: Processing and Properties, Springer Series in Materials Science
Shvartsman VV, Kholkin AL
2012, Dodrecht, Springer.
ISBN: 978-90-481-2875-4

Piezoelectricity and Ferroelectricity in Biomaterials: From Proteins to Self-assembled Peptide Nanotubes

In Ciofani, Gianni; Menciassi, Arianna (Eds.), Piezoelectric Nanomaterials for Biomedical Applications
Bystrov, VS; Bdikin, IK; Heredia, A; Pullar, RC; Mishina, ED; Sigov, AS; Kholkin, AL
2012, New York, Springer.
ISBN: 978-3-642-28044-3

Piezoresponse Force Microscopy

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
Kholkin AL, Kiselev DA, Heredia A
2011, New York, Elsevier.
ISBN: 978-0-08-043152-9

Energy harvesting for small miniaturized systems

Energy Harvesting with Piezoelectric and Pyroelectric Materials
Kholkin AL, Lopes RP
2011, Zurich, Trans Tech Publications.
ISBN: 978-0-87849-159-9

Ferroelectric Domains and Grain engineering in SrBi2Ta2O9

Lead-Free Piezoelectrics
Amorin H, Condoo I, Costa E, Kholkin AL
2011, New York, Springer.

Polar structures in Relaxors by Piezoresponse Force Microscopy

In SV Kalinin and A Gruverman (Eds.), Scanning Probe Microscopy of Functional Materials.
Shvartsman VV, Kleemann W, Kiselev DA, Bdikin IK, Kholkin AL
2011, 345-383, New York, Springer.
ISBN: 978-1-4419- 6567-7

Search for increased performance in BiFeO3: effect of A-site substitution

In T Frías and V Maestas (Eds.), Bulk Materials: Research, Technology and Applications.
Khomchenko VA, Kholkin AL
2010, 335-348, New York, Nova Science Publishers.
ISBN: 978-1-60692-963-6

Substitution- Induced Structural, Ferroelectric and Magnetic Phase Transitions in Bi1-xGdxFeO3 Multiferroics

In Kenneth B. Tamayo (Eds.), Magnetic Properties of Solids
Khomchenko VA, Kholkin AL
2009, Nova Science Publishers.
ISBN: 978-1-61728-534-9

Piezoelectricity and crystal symmetry

In Safari A, Akdogan K (Eds.), Piezoelectric and Acoustic Materials for Transducer Applications
Kholkin AL, Pertsev NA, Goltsev AV
2008, 17-38, Springer US.
ISBN: 978-0-387-76538-9

Smart ferroelectric ceramics for transducer applications

In Mel Shwartz (Eds.), Smart Materials
Kholkin AL, Kiselev DA, Kholkine LA, Safari A
2008, 592-9.1-9.11, CRC Press.
ISBN: 978-1-4200-4372-3

Review of Ferroelectric Domain Imaging by Piezoresponse Force Microscopy

In Kalinin SV, Gruverman A (Eds.), Scanning Probe Microscopy - Electrical and Electromechanical Phenomena at the Nanoscale
Kholkin A L , Kalinin S V, Roelofs A
2007, 173-214, Springer.
ISBN: 978-0-387-28667-9

Nanoscale Structure of Cellulosic Materials: Challenges and Opportunities for AFM

In Mendez-Vilas A, Dias J (Eds.), Modern Research and Educational Topics in Microscopy
Paiva AT , Sequeira SM, Evtuguin DV, Kholkin AL, Portugal I
2007, 1, 726-733, Formatex.
ISBN: 978-84-611-9419-3

Piezoelectric Thick Film Composites: Processing and Applications

Recent Research Developments in Materials Science
Kholkin A L, Wu A, Vilarnho PM
2004, 5, 1-24, Korela India, Research Signpost Publisher.
ISBN: 81-7736-203-8

Materiais Piezoelectricos

In Fontes MA, Ferreira PJ (Eds.), Materiais Dois Mil
Kholkin A L, Baptista J L
2003, 6.6, Lisbon, Ist Press.
ISBN: 972-8469-23-3

Patentes

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