Local nanoelectromechanical properties of multiferroics Gd-DoPeD BiFeo 3-BaTio 3 solid solution

Radheshyam Rai; Pedro Duarte; Igor Bdikin; Manuel Almeida Valente; Paula Alexandrina Marques; Jose Gracio; Andrei L. Kholkin

doi:10.1166/jnn.2012.4559

Local nanoelectromechanical properties of multiferroics Gd-DoPeD BiFeo ₃-BaTio ₃ solid solution

Radheshyam Rai
, Pedro Duarte
, Igor Bdikin^*
, Manuel Almeida Valente
, Paula Alexandrina Marques
, Jose Gracio
, Andrei L. Kholkin

^*Šī darba korespondējošais autors

University of Aveiro

Zinātniskās darbības rezultāts: Devums žurnālam › Zinātniskais raksts (žurnālā) › koleģiāli recenzēts

2 Atsauces (Scopus)

Kopsavilkums

Bi1-x-yGdxBay Fe1-y TiyO3 (x = 0(1 and y = 0(1,0.2,0.3) solid solutions have been prepared via solid state reaction method with the aim to obtaining magnetoelectric coupling (i.e., linear relation between magnetization and electric field) at room temperature. Optimum calcination and sintering strategies for obtaining pure perovskite phase, high density ceramics and homogeneous microstructures have been determined. The maximum ferroelectric transition temperature (Tc,of this system was 150-170°C with the dielectric constant peak of 2300 at 100 kHz for y = 0(1. Well saturated piezoelectric loops were observed for all composition indicating room temperature ferroelectricity. Hardness and Young's modulus decrease with depth and with increasing concentration y .

Oriģinālvaloda	Angļu
Lapas (no-līdz)	6639-6644
Lapu skaits	6
Žurnāls	Journal of Nanoscience and Nanotechnology
Sējums	12
Izdevuma numurs	8
DOIs	https://doi.org/10.1166/jnn.2012.4559
Publikācijas statuss	Publicēts - aug. 2012
Ārēji publicēts	Jā

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title = "Local nanoelectromechanical properties of multiferroics Gd-DoPeD BiFeo 3-BaTio 3 solid solution",

abstract = "Bi1-x-yGdxBay Fe1-y TiyO3 (x = 0(1 and y = 0(1,0.2,0.3) solid solutions have been prepared via solid state reaction method with the aim to obtaining magnetoelectric coupling (i.e., linear relation between magnetization and electric field) at room temperature. Optimum calcination and sintering strategies for obtaining pure perovskite phase, high density ceramics and homogeneous microstructures have been determined. The maximum ferroelectric transition temperature (Tc,of this system was 150-170°C with the dielectric constant peak of 2300 at 100 kHz for y = 0(1. Well saturated piezoelectric loops were observed for all composition indicating room temperature ferroelectricity. Hardness and Young's modulus decrease with depth and with increasing concentration y .",

keywords = "Ceramics, Dielectric Properties, Ferroelectricity, Magnetic Properties, Phase Transitions",

author = "Radheshyam Rai and Pedro Duarte and Igor Bdikin and Valente, \{Manuel Almeida\} and Marques, \{Paula Alexandrina\} and Jose Gracio and Kholkin, \{Andrei L.\}",

year = "2012",

month = aug,

doi = "10.1166/jnn.2012.4559",

language = "English",

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pages = "6639--6644",

journal = "Journal of Nanoscience and Nanotechnology",

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publisher = "American Scientific Publishers",

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TY - JOUR

T1 - Local nanoelectromechanical properties of multiferroics Gd-DoPeD BiFeo 3-BaTio 3 solid solution

AU - Rai, Radheshyam

AU - Duarte, Pedro

AU - Bdikin, Igor

AU - Valente, Manuel Almeida

AU - Marques, Paula Alexandrina

AU - Gracio, Jose

AU - Kholkin, Andrei L.

PY - 2012/8

Y1 - 2012/8

N2 - Bi1-x-yGdxBay Fe1-y TiyO3 (x = 0(1 and y = 0(1,0.2,0.3) solid solutions have been prepared via solid state reaction method with the aim to obtaining magnetoelectric coupling (i.e., linear relation between magnetization and electric field) at room temperature. Optimum calcination and sintering strategies for obtaining pure perovskite phase, high density ceramics and homogeneous microstructures have been determined. The maximum ferroelectric transition temperature (Tc,of this system was 150-170°C with the dielectric constant peak of 2300 at 100 kHz for y = 0(1. Well saturated piezoelectric loops were observed for all composition indicating room temperature ferroelectricity. Hardness and Young's modulus decrease with depth and with increasing concentration y .

AB - Bi1-x-yGdxBay Fe1-y TiyO3 (x = 0(1 and y = 0(1,0.2,0.3) solid solutions have been prepared via solid state reaction method with the aim to obtaining magnetoelectric coupling (i.e., linear relation between magnetization and electric field) at room temperature. Optimum calcination and sintering strategies for obtaining pure perovskite phase, high density ceramics and homogeneous microstructures have been determined. The maximum ferroelectric transition temperature (Tc,of this system was 150-170°C with the dielectric constant peak of 2300 at 100 kHz for y = 0(1. Well saturated piezoelectric loops were observed for all composition indicating room temperature ferroelectricity. Hardness and Young's modulus decrease with depth and with increasing concentration y .

KW - Ceramics

KW - Dielectric Properties

KW - Ferroelectricity

KW - Magnetic Properties

KW - Phase Transitions

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