Nanotube array-based barium titanate–cobalt ferrite composite film for affordable magnetoelectric multiferroics

Kawamura, Go; Oura, Kentaro; Tan, Wei; Goto, Taichi; Nakamura, Y.; Yokoe, Daisaku; Deepak, Francis Leonard; Hajraoui, Khalil El; Wei, Xing; Inoue, M.; Yamaguchi, Kazuhiro; Boccaccını, Aldo R.; Matsuda, Atsunori

doi:10.1039/c9tc02442e

Cited by 19 publications

(7 citation statements)

References 41 publications

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“…05‐0626 ( a = b = 0.399 nm, c = 0.402 nm). [ 31,32 ] The composition of BTFs can be confirmed by energy dispersive X‐ray (EDX) analyses in Figure S2 (Supporting Information). Figure 1c shows the SEM image of CNTs, from which typical wire‐shape morphology with a diameter of 5–20 nm and a length of ≈10 µm can be observed.…”

Section: Resultsmentioning

confidence: 93%

3D BaTiO₃ Flower Based Polymer Composites Exhibiting Excellent Piezoelectric Energy Harvesting Properties

Jian

Jiao

Meng

et al. 2020

Adv Materials Inter

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Piezoelectric nanogenerators (PENGs) with good flexibility and high outputs have promising applications in harvesting mechanical energy and powering electronics. In this study, a synthesis of hierarchical BaTiO3 flowers (BTFs) and their filling into the polydimethylsiloxane (PDMS) matrix to obtain composites with excellent energy harvesting properties is reported. The BTF‐based PENG possesses a voltage of 260 V, a current of 50 µA, and a power of 1728 µW under a compression of 50 N at 3.5 Hz, which output power is two orders higher than that of polymer composites filled with BT nanoparticles. Simulation indicates that the high local stress at petals of BTFs is the main reason for the enhanced performances. The PENG shows good durability under 5000 cycles and lights up 58 commercial light emitting diodes and a display. The PENG generates 30–100 V in harvesting human motions of hand slapping and foot stepping and ≈50 V in harvesting the sport kinetic energy of basketball bouncing. This research presents a BTF‐based PENG with significantly enhanced energy harvesting performances for applications in micro/nanoenergy systems.

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Section: Resultsmentioning

confidence: 93%

3D BaTiO₃ Flower Based Polymer Composites Exhibiting Excellent Piezoelectric Energy Harvesting Properties

Jian

Jiao

Meng

et al. 2020

Adv Materials Inter

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“…Furthermore, large ME effect need an external dc magnetic eld. Most recently, researchers have turned their interest to multiferroic nanocomposites, [24][25][26][27] because of the demand for high-density electronic components with high performance, multifunctionality, smaller size and low cost. In nanoscale, the composites hold high contact area between the components and the interfaces play a key role in modulating the effective material properties, furthermore, the nanocomposites exhibit novel ME phenomena.…”

Section: Introductionmentioning

confidence: 99%

Giant magnetoelectric coupling observed at high frequency in NiFe₂O₄–BaTiO₃ particulate composite

et al. 2020

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“…Highly ordered TNTAs were fabricated by a two-step anodization process 21 . A Ti foil was cut in 4 × 2.5 cm 2 pieces and washed by ultrasonication in acetone for 1 h. After drying in air, the cut Ti foil as an anode and a Pt rod as a cathode were dipped into an electrolyte of ethylene glycol (EG) with 0.08 M NH 4 F and 1.3 M H 2 O, then a potential of 60 V between the electrodes was applied for 2 h at room temperature.…”

Section: Methodsmentioning

confidence: 99%

Tube length optimization of titania nanotube array for efficient photoelectrochemical water splitting

Inoue

Matsuda

Kawamura

2023

Sci Rep

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Anodic TiO2 nanotube arrays (TNTAs) have attracted much attention due to their excellent photoelectrochemical (PEC) properties. In this work, the tube length of TNTAs was optimized for efficient PEC water splitting under two different conditions, in which very few or a massive amount of gas bubbles were generated on the electrodes. As a result, relatively longer TNTAs were found to be preferable for higher PEC performance when a larger number of bubbles were generated. This suggests that the mass transport in the electrolyte is assisted by the generated bubbles, so that the electrode surfaces are more easily exposed to the fresh electrolyte, leading to the higher PEC performance.

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Nanotube array-based barium titanate–cobalt ferrite composite film for affordable magnetoelectric multiferroics

Abstract: Barium titanate–cobalt ferrite nanocomposite film showing room-temperature magnetoelectric multiferroics was fabricated only via affordable liquid phase processes.

Cited by 19 publications

References 41 publications

3D BaTiO₃ Flower Based Polymer Composites Exhibiting Excellent Piezoelectric Energy Harvesting Properties

3D BaTiO₃ Flower Based Polymer Composites Exhibiting Excellent Piezoelectric Energy Harvesting Properties

Giant magnetoelectric coupling observed at high frequency in NiFe₂O₄–BaTiO₃ particulate composite

Tube length optimization of titania nanotube array for efficient photoelectrochemical water splitting

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Nanotube array-based barium titanate–cobalt ferrite composite film for affordable magnetoelectric multiferroics

Abstract: Barium titanate–cobalt ferrite nanocomposite film showing room-temperature magnetoelectric multiferroics was fabricated only via affordable liquid phase processes.

Cited by 19 publications

References 41 publications

3D BaTiO3 Flower Based Polymer Composites Exhibiting Excellent Piezoelectric Energy Harvesting Properties

3D BaTiO3 Flower Based Polymer Composites Exhibiting Excellent Piezoelectric Energy Harvesting Properties

Giant magnetoelectric coupling observed at high frequency in NiFe2O4–BaTiO3 particulate composite

Tube length optimization of titania nanotube array for efficient photoelectrochemical water splitting

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Product

Resources

About

3D BaTiO₃ Flower Based Polymer Composites Exhibiting Excellent Piezoelectric Energy Harvesting Properties

3D BaTiO₃ Flower Based Polymer Composites Exhibiting Excellent Piezoelectric Energy Harvesting Properties

Giant magnetoelectric coupling observed at high frequency in NiFe₂O₄–BaTiO₃ particulate composite