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Enhanced Electrochemical Performance in Ni-Doped LiMn<sub>2</sub>O<sub>4</sub>-Based Composite Cathodes for Lithium-Ion Batteries.
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- ChemElectroChem, 2017, v. 4, n. 6, p. 1362, doi. 10.1002/celc.201600823
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PHASE TRANSITION, DIELECTRIC AND PIEZOELECTRIC PROPERTIES OF NaNbO<sub>3</sub>--Ba<sub>0.85</sub>Ca<sub>0.15</sub>(Ti<sub>0.9</sub>Zr<sub>0.1</sub>)O<sub>3</sub> LEAD-FREE CERAMICS.
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- Functional Materials Letters, 2012, v. 5, n. 3, p. 1250033-1, doi. 10.1142/S1793604712500336
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Piezoelectric and dielectric properties of Bi<sub>0.5</sub>Na<sub>0.5</sub>TiO<sub>3</sub>–Bi<sub>0.5</sub>Li<sub>0.5</sub>TiO<sub>3</sub> lead-free ceramics.
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- Journal of Materials Science: Materials in Electronics, 2009, v. 20, n. 5, p. 393, doi. 10.1007/s10854-008-9741-y
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Vanadium Doped Nickel Phosphide Nanosheets Self‐Assembled Microspheres as a High‐Efficiency Oxygen Evolution Catalyst.
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- ChemCatChem, 2020, v. 12, n. 3, p. 917, doi. 10.1002/cctc.201901904
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Red/Blue-Shift Dual-Directional Regulation in Blue-Emitting CaBaSiO:Eu Phosphor on Incorporation of Eu/Mg Ions.
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- Journal of Electronic Materials, 2017, v. 46, n. 3, p. 1777, doi. 10.1007/s11664-016-5228-4
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Structure, Ferroelectric and Photoluminescence Properties of Eu-Doped CaBiTiO Multifunctional Ceramics.
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- Journal of Electronic Materials, 2015, v. 44, n. 10, p. 3696, doi. 10.1007/s11664-015-3730-8
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Sn-doped LiMnNiCoO cathode materials for lithium-ion batteries with enhanced electrochemical performance.
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- Journal of Solid State Electrochemistry, 2017, v. 21, n. 12, p. 3467, doi. 10.1007/s10008-017-3688-y
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BiFeO-coated spinel LiNiMnO with improved electrochemical performance as cathode materials for lithium-ion batteries.
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- Journal of Solid State Electrochemistry, 2017, v. 21, n. 10, p. 2849, doi. 10.1007/s10008-017-3608-1
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Structure, electrical properties and temperature characteristics of Bi<sub>0.5</sub>Na<sub>0.5</sub>TiO<sub>3</sub>–Bi<sub>0.5</sub>K<sub>0.5</sub>TiO<sub>3</sub>–Bi<sub>0.5</sub>Li<sub>0.5</sub>TiO<sub>3</sub> lead-free piezoelectric ceramics
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- Applied Physics A: Materials Science & Processing, 2008, v. 93, n. 2, p. 549, doi. 10.1007/s00339-008-4667-z
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Multifunctional Electrolyte toward Long‐Life Zinc‐Ion Batteries: Synchronous Regulation of Solvation, Cathode and Anode Interfaces.
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- Advanced Functional Materials, 2024, v. 34, n. 6, p. 1, doi. 10.1002/adfm.202311961
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Unraveling the Solvation Structure and Electrolyte Interface through Carbonyl Chemistry for Durable and Dendrite‐Free Zn Anode.
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- Advanced Functional Materials, 2023, v. 33, n. 46, p. 1, doi. 10.1002/adfm.202305683
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Optimizing Interplanar Spacing, Oxygen Vacancies and Micromorphology via Lithium‐Ion Pre‐Insertion into Ammonium Vanadate Nanosheets for Advanced Cathodes in Aqueous Zinc‐Ion Batteries.
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- Small, 2024, v. 20, n. 28, p. 1, doi. 10.1002/smll.202309412
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Nanostructured bimetallic Ni–Fe phosphide nanoplates as an electrocatalyst for efficient N<sub>2</sub> fixation under ambient conditions.
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- Journal of Materials Science, 2020, v. 55, n. 31, p. 15252, doi. 10.1007/s10853-020-05085-5
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A Porous Carbon Polyhedron/Carbon Nanotube Based Hybrid Material as Multifunctional Sulfur Host for High‐Performance Lithium‐Sulfur Batteries.
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- ChemElectroChem, 2019, v. 6, n. 13, p. 3410, doi. 10.1002/celc.201900744
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Nitrogen-Doped Hierarchical Porous Carbon Framework Derived from Waste Pig Nails for High-Performance Supercapacitors.
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- ChemElectroChem, 2017, v. 4, n. 12, p. 3181, doi. 10.1002/celc.201700810
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Mn-Doped NiFe Layered Double Hydroxide Nanosheets Decorated by Co(OH)<sub>2</sub> Nanosheets: A 3-Dimensional Core–Shell Catalyst for Efficient Oxygen Evolution Reaction.
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- Catalysis Letters, 2022, v. 152, n. 6, p. 1719, doi. 10.1007/s10562-021-03766-7
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Efficient Suppression of Dendrites and Side Reactions by Strong Electrostatic Shielding Effect via the Additive of Rb<sub>2</sub>SO<sub>4</sub> for Anodes in Aqueous Zinc‐Ion Batteries.
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- Small, 2023, v. 19, n. 52, p. 1, doi. 10.1002/smll.202303906
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High‐Energy‐Density Cathode Achieved via the Activation of a Three‐Electron Reaction in Sodium Manganese Vanadium Phosphate for Sodium‐Ion Batteries.
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- Small, 2023, v. 19, n. 50, p. 1, doi. 10.1002/smll.202304002
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Homologous Heterostructured NiS/NiS<sub>2</sub>@C Hollow Ultrathin Microspheres with Interfacial Electron Redistribution for High‐Performance Sodium Storage.
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- Small, 2023, v. 19, n. 42, p. 1, doi. 10.1002/smll.202303642
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Copper Hexacyanoferrate Solid‐State Electrolyte Protection Layer on Zn Metal Anode for High‐Performance Aqueous Zinc‐Ion Batteries.
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- Small, 2022, v. 18, n. 38, p. 1, doi. 10.1002/smll.202203061
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Large energy storage density and efficiency of Sm2O3-doped Ba0.85Ca0.15Zr0.08Ti0.92O3 lead-free ceramics.
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- Journal of Materials Science: Materials in Electronics, 2021, v. 32, n. 7, p. 9650, doi. 10.1007/s10854-021-05626-x
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Enhancement in electrochemical performance of nitrogen-doped hierarchical porous carbon-based supercapacitor by optimizing activation temperature.
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- Journal of Materials Science: Materials in Electronics, 2019, v. 30, n. 3, p. 2600, doi. 10.1007/s10854-018-0535-6
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Defect-relevant piezoelectric and ferroelectric properties in LiCuTa<sub>3</sub>O<sub>9</sub>-doped K<sub>0.5</sub>Na<sub>0.5</sub>NbO<sub>3</sub> lead-free piezoceramics.
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- Journal of Materials Science: Materials in Electronics, 2019, v. 30, n. 3, p. 2563, doi. 10.1007/s10854-018-0531-x
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Strong piezoelectricity and multiferroicity in BiFeO-BaTiO-NdCoO lead-free piezoelectric ceramics with high Curie temperature for current sensing application.
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- Journal of Materials Science: Materials in Electronics, 2017, v. 28, n. 7, p. 5531, doi. 10.1007/s10854-016-6216-4
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Structure and luminescent properties of CaBi(PO):Sm orange phosphor.
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- Journal of Materials Science: Materials in Electronics, 2017, v. 28, n. 3, p. 2826, doi. 10.1007/s10854-016-5865-7
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Enhanced ferroelectric and ferromagnetic properties of Er-modified BiFeO-BaTiO lead-free multiferroic ceramics.
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- Journal of Materials Science: Materials in Electronics, 2016, v. 27, n. 6, p. 5741, doi. 10.1007/s10854-016-4487-4
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Structure, piezoelectric and multiferroic properties of Bi(NiMn)O-modified BiFeO-BaTiO ceramics.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 12, p. 9451, doi. 10.1007/s10854-015-3376-6
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Phase transition, electrical and luminescent properties of Dy-doped KNaNbO-based lead-free ceramics.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 11, p. 8341, doi. 10.1007/s10854-015-3500-7
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Improved ferroelectricity and ferromagnetism of Eu-modified BiFeO-BaTiO lead-free multiferroic ceramics.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 11, p. 8840, doi. 10.1007/s10854-015-3564-4
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Improved piezoelectric and bright up-conversion photoluminescent properties in Ho-doped BiNaTiO-BaTiO lead-free ceramics.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 9, p. 6979, doi. 10.1007/s10854-015-3317-4
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Enhanced piezoelectricity and photoluminescence in Dy-modified 0.94(BiDy)NaTiO-0.06BaTiO lead-free multifunctional ceramics.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 7, p. 4981, doi. 10.1007/s10854-015-3010-7
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Phase transition, dielectric, ferroelectric and ferromagnetic properties of La-doped BiFeO-BaTiO multiferroic ceramics.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 2, p. 978, doi. 10.1007/s10854-014-2492-z
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Structure, ferroelectric and piezoelectric properties of Bi(NaK)TiO modified BiFeO-BaTiO lead-free piezoelectric ceramics.
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- Journal of Materials Science: Materials in Electronics, 2014, v. 25, n. 9, p. 3753, doi. 10.1007/s10854-014-2086-9
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Microstructure, ferroelectric, piezoelectric and ferromagnetic properties of BiFeO-BaTiO-Bi(ZnTi)O lead-free multiferroic ceramics.
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- Journal of Materials Science: Materials in Electronics, 2014, v. 25, n. 6, p. 2638, doi. 10.1007/s10854-014-1923-1
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Phase transition, ferroelectric and piezoelectric properties of Bi(MgZr)O-modified BiFeO-BaTiO lead-free ceramics.
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- Journal of Materials Science: Materials in Electronics, 2014, v. 25, n. 4, p. 1736, doi. 10.1007/s10854-014-1792-7
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Structure, ferroelectric, piezoelectric and ferromagnetic properties of BiFeO-Ba(BiK)TiO lead-free multiferroic ceramics.
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- Journal of Materials Science: Materials in Electronics, 2014, v. 25, n. 3, p. 1534, doi. 10.1007/s10854-014-1764-y
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Microstructure, dielectric and piezoelectric properties of La-modified Bi(NaK)TiO lead-free ceramics.
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- Journal of Materials Science: Materials in Electronics, 2013, v. 24, n. 10, p. 3836, doi. 10.1007/s10854-013-1326-8
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Effects of La-doping on microstructure, dielectric and piezoelectric properties of BaCaTiZrO lead-free ceramics.
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- Journal of Materials Science: Materials in Electronics, 2013, v. 24, n. 2, p. 734, doi. 10.1007/s10854-012-0802-x
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- Article
Dielectric and piezoelectric properties of MnO<sub>2</sub>-doped K<sub>0.5</sub>Na<sub>0.5</sub>Nb<sub>0.92</sub>Sb<sub>0.08</sub>O<sub>3</sub> lead-free ceramics.
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- Journal of Materials Science: Materials in Electronics, 2010, v. 21, n. 7, p. 649, doi. 10.1007/s10854-009-9971-7
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Structure and piezoelectric properties of new ternary K<sub>0.5</sub>Na<sub>0.5</sub>NbO<sub>3</sub>–LiSbO<sub>3</sub>–CaTiO<sub>3</sub> lead-free piezoceramics.
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- Journal of Materials Science: Materials in Electronics, 2010, v. 21, n. 6, p. 625, doi. 10.1007/s10854-009-9967-3
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Multiple improvement in piezoelectricity, ferroelectricity, and fluorescence of 0.94(Bi<sub>0.984</sub>Er<sub>0.016</sub>Na)<sub>0.5</sub>TiO<sub>3</sub>-0.06BaTiO<sub>3</sub> by optimizing sintering temperature/dwell time.
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- Physica Status Solidi. A: Applications & Materials Science, 2016, v. 213, n. 1, p. 60, doi. 10.1002/pssa.201532294
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Phase transition, piezoelectric, and multiferroic properties of La(Co<sub>0.5</sub>Mn<sub>0.5</sub>)O<sub>3</sub>-modified BiFeO<sub>3</sub>-BaTiO<sub>3</sub> lead-free ceramics.
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- Physica Status Solidi. A: Applications & Materials Science, 2015, v. 212, n. 9, p. 2012, doi. 10.1002/pssa.201532127
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Structure, ferroelectric, ferromagnetic, and piezoelectric properties of Al-modified BiFeO<sub>3</sub>-BaTiO<sub>3</sub> multiferroic ceramics.
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- Physica Status Solidi. A: Applications & Materials Science, 2015, v. 212, n. 3, p. 632, doi. 10.1002/pssa.201431485
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Microstructure, electrical properties, and electric field-induced phase transitions in NaNbO<sub>3</sub>-LiTaO<sub>3</sub> lead-free ceramics.
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- Physica Status Solidi. A: Applications & Materials Science, 2014, v. 211, n. 4, p. 869, doi. 10.1002/pssa.201330252
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Effects of MnO<sub>2</sub> doping on structure, dielectric and piezoelectric properties of 0.825NaNbO<sub>3</sub>-0.175Ba<sub>0.6</sub>(Bi<sub>0.5</sub>K<sub>0.5</sub>)<sub>0.4</sub>TiO<sub>3</sub> lead-free ceramics.
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- Physica Status Solidi. A: Applications & Materials Science, 2012, v. 209, n. 12, p. 2610, doi. 10.1002/pssa.201228254
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Phase structure, dielectric, and piezoelectric properties of (K<sub>0.94− x</sub>Na<sub> x</sub>Li<sub>0.06</sub>)(Nb<sub>0.94</sub>Sb<sub>0.06</sub>)O<sub>3</sub> lead-free ceramics.
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- Physica Status Solidi. A: Applications & Materials Science, 2012, v. 209, n. 11, p. 2299, doi. 10.1002/pssa.201228406
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Effects of Nb doping on the microstructure, ferroelectric and piezoelectric properties of 0.7BiFeO-0.3BaTiO lead-free ceramics.
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- Bulletin of Materials Science, 2016, v. 39, n. 3, p. 737, doi. 10.1007/s12034-016-1198-7
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One‐Step Synthesis of a Coral‐Like Cobalt Iron Oxyhydroxide Porous Nanoarray: An Efficient Catalyst for Oxygen Evolution Reactions.
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- ChemPlusChem, 2019, v. 84, n. 11, p. 1681, doi. 10.1002/cplu.201900512
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Structure and electrical properties of (Bi<sub>0.5</sub>Na<sub>0.5</sub>)<sub>1- x- y- z</sub>(Bi<sub>0.5</sub>K<sub>0.5</sub>)<sub> x</sub>Ba<sub> y</sub>(Bi<sub>0.5</sub>Li<sub>0.5</sub>)<sub> z</sub>TiO<sub>3</sub> lead-free piezoelectric ceramics.
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- Physica Status Solidi. A: Applications & Materials Science, 2012, v. 209, n. 3, p. 505, doi. 10.1002/pssa.201127268
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Effects of MnO<sub>2</sub> and sintering temperature on microstructure, ferroelectric, and piezoelectric properties of Ba<sub>0.85</sub>Ca<sub>0.15</sub>Ti<sub>0.90</sub>Zr<sub>0.10</sub>O<sub>3</sub> lead-free ceramics.
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- Journal of Materials Science, 2013, v. 48, n. 3, p. 1035, doi. 10.1007/s10853-012-6835-y
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- Article