Ongoing Supervisions
Projects
Biocompatible Piezoelectric Thin Films: Towards a Wearable Sensor Devices (BioPiezoSensor)
PartnerFundação para a Ciência e a Tecnologia
Sensors and actuators that are based on biocompatible piezoelectric materials have a great future. These biodevices can be safely integrated with biological systems for applications such as sensing biological forces, stimulating tissue growth and healing, as well as diagnosing medical problems. The main objective of the project is relat...Piezoelectricity in 2D-materials: materials, modeling, and applications (Piezo2D)
CoordinatorEuropean Comission
Piezoelectricity in two-dimensional (2D) materials is increasingly important because of its potential in realizing thin yet efficient and flexible piezoelectric devices. In contrast to traditional three-dimensional (3D) piezo- and ferroelectrics that are prone to size effects, piezoelectricity in 2D materials may be controlled by flexoe...Acção Integrada Luso Alemã A-26/11 (Acção Integrada Luso Alemã A-26/11)
CoordinatorOther National
Acção Integrada Luso-Espanhola E-45/11 (Acção Integrada Luso-Espanhola E-45/11)
CoordinatorOther National
Additive Manufacturing of 3D Microfluidic MEMS for Lab-on-a-Chip applications - M3DLoC (M3DLoC)
PartnerEuropean 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...Bi-layered perovskites for piezoelectric and memory applications (POCTI/CTM/35444/1999)
PartnerFundação para a Ciência e a Tecnologia
piezoelectrics sensors and actuators non-volatile memory fatigueBIOTEX - Bioactive Textiles using functional biopolymers (POCI/CTM/58312/2004)
PartnerFundação para a Ciência e a Tecnologia
Polyester and polypropylene fibres Chitosan Anti-microbial activity Textile dyeingCeramics and films of incipients ferroelectrics for tunable capacitors applications (POCTI/CTM/35542/1999)
PartnerFundação para a Ciência e a Tecnologia
Ferroelectrics Ceramics Films TunabilityCIMMEC - Coupling in Multiferroic and MagnetoElectric Composites (CIMMEC)
CoordinatorEuropean 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...Degradation in Li-batteries: a Scanning Probe Microscopy Approach (LI-SPM)
CoordinatorFundação para a Ciência e a Tecnologia
Baterias de Li; Microscopia de Deformacao Eletroquímica; Microscopia de Forca por Sonda Kelvin; DegradacaoDesenvolvimento de novos materiais piezoele?tricos baseados em de pepti?deos auto- organizado nanoestruturados (BioPiezo)
PartnerFundação para a Ciência e a Tecnologia
Development and characterization of novel multiferroic materials and structures (FLAD 600-06/2006)
CoordinatorOther National
Development of novel lead-free materials for piezoelectric energy harvesting (PTDC/CTM-CER/115085/2009)
CoordinatorFundação para a Ciência e a Tecnologia
piezoelectricity energy harvesting lead-free ceramicsDielectric properties and lattices dynamics of granular materials (POCTI/CTM/45284/2002)
PartnerFundação para a Ciência e a Tecnologia
Ceramics Defects Dielectrics RelaxorsMULTICERAL - Multifunctional ceramic layers with high electromagnetoelastic coupling in complex geometries (MULTICERAL)
CoordinatorEuropean 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...Multiferroic, magnetoelectric and metallic micro and nanocomposites base don electroactive polymers (PTDC/CTM/69316/2006)
PartnerFundação para a Ciência e a Tecnologia
magnetoelectrics electro-optical electroactive sensors and actuatorsMultiferroics and magnetoelectrics for spintronics: barriers and interfaces (PTDC/CTM/099415/2008)
PartnerFundação para a Ciência e a Tecnologia
Multiferroic and magnetoelectric materials Heterostructures Spin transport TunnelingMULTIFOX: Nanometric Probing and Modification of Multiferroic Oxides (PTDC/FIS/105416/2008)
PartnerFundação para a Ciência e a Tecnologia
multiferroic magnetic piezoforce microscopy nanostructured materialsNano-scale investigation of fatigue of ferroelectric thin films (POCI/CTM/61071/2004)
PartnerFundação para a Ciência e a Tecnologia
fatigue thin films ferroelectrics nano-scaleNanochemistry of magnetic/luminescent composites for in vitro medical diagnosis applications (PTDC/QUI/67712/2006)
PartnerFundação para a Ciência e a Tecnologia
Nanoparticles Nanocomposites Magnetism/Luminescence Antibodies bioconjugationNanolectromechanics of graphene (PTDC/CTM-NAN/121313/2010)
CoordinatorFundação para a Ciência e a Tecnologia
graphene strain scanning probe microscopy ferroelectricityNANOMOTION - Nanoelectromechanical Motion in Functional Materials (NANOMOTION)
CoordinatorEuropean 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...Nanoscale investigation of ferroelectrics and related materials (REEQ/1187/CTM/2005)
PartnerFundação para a Ciência e a Tecnologia
In this project, by using Scanning probe microscopy, SPM, specifically modified for the visualization of polar nanodomains, mapping of the dielectric constant, measurements of the ferroelectric hysteresis, among other properties, several ferroelectric and related materials were characterised. In these studies bulk, thin and thick films of high q...NOLEAD: Novel lead-free ferroelectric films by PLD for optoelectronics (PTDC/FIS/108025/2008)
Local CoordinatorFundação para a Ciência e a Tecnologia
Ferroeléctricos sem chumbo Efeito electro-óptico Piezo-electricidade Óptica integradaNovel Aurivillus oxides for microelectronic applications (PTDC/CTM/71643/2006)
PartnerFundação para a Ciência e a Tecnologia
Aurivillius oxides filmes finos sol-gel RF sputteringNovel BST dielectric films for ultra high density DRAMs (POCTI/CTM/47285/2002)
PartnerFundação para a Ciência e a Tecnologia
sol-gel dynamic random access memory dielectric thin film BSTOrigin of polar state in relaxors via Scanning Probe Microscopy (PTDC/FIS/81442/2006)
CoordinatorFundação para a Ciência e a Tecnologia
Relaxores Ferroeléctricos Microscopia da Sonda de Varrimento NanotecnologiaPhase transitions and ferroelectricity in self-assembled peptides nanotubes (TUBITAK)
CoordinatorFundação para a Ciência e a Tecnologia
nanotubos de peptídeos; auto-organização; transições de fase; espectroscopia dielétricaPhotosensitive ferroelectric films for electronic applications (POCTI/CTM/35502/1999)
CoordinatorFundação para a Ciência e a Tecnologia
sol-gel photoelectric properties thin films photostrictionPolarization-driven self-assembly of organic and biomaterials (PTDC/CTM/73030/2006)
CoordinatorFundação para a Ciência e a Tecnologia
self-assembly polymers ferroelectric nanotechnologyPolarization-driven self-assembly of organic and biomaterials using ultra-thin ferroelectric polymers (INTAS 2005-1000008-8091)
CoordinatorEuropean 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...Processing and characterization of electroactive polymers and composites based on PVDF for microelectronic, sensor and actuator applications (POCI/CTM/59425/2004)
PartnerFundação para a Ciência e a Tecnologia
piezoelectricity sensors and actuators polymers and composites material processing and characterisationProcessing and characterization of multiferroic ceramics for sensor and actuator applications (PTDC/CTM/67575/2006)
PartnerFundação para a Ciência e a Tecnologia
Multiferroic materials Magnetoelectric effect spin-lattice coupling Granular materialsProdiTrodi - Technology Platform for Point-of-Care Diagnostics for Tropical Diseases (PodiTrodi-EU)
Local CoordinatorEuropean 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...Shear-induced solidification studies on polymers and polymer-clay nanocomposites (PTDC/CTM/68614/2006)
CoordinatorFundação para a Ciência e a Tecnologia
Precursor structures Shear-induced crystallization Orientation NanocompositesSmart joint implants using bionanocomposites – SIMBIO (NANO/NMed-SD/0156/2007)
PartnerFundação para a Ciência e a Tecnologia
biocomposites nanocomposites smart materials smart implantsSynthesis and characterization of multiferroic nanostructures synthetised via novel non-aqueous sol-gel routes (PTDC/CTM/65667/2006)
PartnerFundação para a Ciência e a Tecnologia
multiferroic materials non-aqueous sol-gel nanoparticles thin filmsThick composite coatings for piezoelectric applications (POCTI/CTM/44732/2002)
PartnerFundação para a Ciência e a Tecnologia
sol-gel thick films piezoelectric transducers actuatorsTransition metal oxides with metastable phases: a way towards superior ferroic properties (TransFerr)
Local CoordinatorEuropean 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...Publications
Dual Vibration and Magnetic Energy Harvesting With Bidomain LiNbO3-Based Composite
Vidal, JV; Turutin, AV; Kubasov, IV; Kislyuk, AM; Kiselev, DA; Malinkovich, MD; Parkhomenko, YN; Kobeleva, SP; Sobolev, NA; Kholkin, AL
2020, IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, 67, 6, 1219-1229.
ISBN:
1525-8955
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Electromagnetic energy harvesting using magnetic levitation architectures: A review
Carneiro, P; dos Santos, MPS; Rodrigues, A; Ferreira, JAF; Simoes, JAO; Marques, AT; Kholkin, AL
2020, APPLIED ENERGY, 260.
ISBN:
1872-9118
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Fracture strength and fatigue endurance in Gd-doped ceria thermal actuators
Mishuk, E; Ushakov, A; Shklovsky, J; Krylov, S; Shacham-Diamand, Y; Shur, VY; Kholkin, A; Lubomirsky, I
2020, SENSORS AND ACTUATORS A-PHYSICAL, 304.
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Interferometric measurements of graphene-based membranes for micromechanical applications
Ushakov, AD; Akhmatkhanov, AR; Chichkov, MV; Turutin, AV; Chuvakova, MA; Kravchenko, I; Shur, VY; Kholkin, AL
2020, FERROELECTRICS, 560, 1, 95-101.
ISBN:
1563-5112
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Magnetic Properties of La(0.9)A(0.1)MnO(3) (A: Li, Na, K) Nanopowders and Nanoceramics
Gluchowski, P; Nikonkov, R; Tomala, R; Strek, W; Shulha, T; Serdechnova, M; Zheludkevich, M; Pakalaniskis, A; Skaudzius, R; Kareiva, A; Abramov, A; Kholkin, A; Bushinsky, MV; Karpinsky, D
2020, MATERIALS, 13, 7.
ISBN:
1996-1944
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Magnetoelectric Effect in the Bidomain Lithium Niobate/Nickel/Metglas Gradient Structure
Bichurin, MI; Sokolov, OV; Leontiev, VS; Petrov, RV; Tatarenko, AS; Semenov, GA; Ivanov, SN; Turutin, AV; Kubasov, IV; Kislyuk, AM; Malinkovich, MD; Parkhomenko, YN; Kholkin, AL; Sobolev, NA
2020, PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS, 257, 3.
ISBN:
1521-3951
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Peculiarities of the Crystal Structure Evolution of BiFeO3-BaTiO3 Ceramics across Structural Phase Transitions
Karpinsky, DV; Silibin, MV; Trukhanov, SV; Trukhanov, AV; Zhaludkevich, AL; Latushka, SI; Zhaludkevich, DV; Khomchenko, VA; Alikin, DO; Abramov, AS; Maniecki, T; Maniukiewicz, W; Wolff, M; Heitmann, V; Kholkin, AL
2020, NANOMATERIALS, 10, 4.
ISBN:
2079-4991
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To switch or not to switch - a machine learning approach for ferroelectricity
Neumayer, SM; Jesse, S; Velarde, G; Kholkin, AL; Kravchenko, I; Martin, LW; Balke, N; Maksymovych, P
2020, NANOSCALE ADVANCES, 2, 5, 2063-2072.
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Local Electromechanical Response in Doped Ceria: Rigorous Analysis of the Phase and Amplitude
Alikin, DO; Slautin, BN; Ushakov, AD; Shur, VY; Mishuk, E; Lubomirsky, I; Tselev, A; Kholkin, AL
2020, IEEE TRANSACTIONS ON DIELECTRICS AND ELECTRICAL INSULATION, 27, 5, 1478-1485.
ISBN:
1558-4135
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Piezoelectric Actuation of Graphene-Coated Polar Structures
Kholkin, AL; Ushakov, AD; Chuvakova, MA; Kosobokov, MS; Akhmatkhanov, AR; Turutin, AV; Chichkov, MV; Kravchenko, II; Kopelevich, Y; Shur, VY
2020, IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, 67, 10, 2142-2147.
ISBN:
1525-8955
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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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
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Ferroelectric Domains and Grain engineering in SrBi2Ta2O9
Lead-Free Piezoelectrics
Amorin H, Condoo I, Costa E, Kholkin AL
2011, New York, Springer.
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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
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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
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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
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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
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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
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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
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