Colossal permittivity behavior and its origin in rutile (Mg1/3Ta2/3)xTi1-xO2

Dong, Wen; Chen, Dehong; Hu, Wanbiao; Frankcombe, Terry J.; Chen, Hua; Zhou, Chao; Fu, Zhenxiao; Wei, Xiaoyong; Wang, Chao; Liu, Zhifu; Li, Yongxiang; Liu, Yun

doi:10.1038/s41598-017-08992-x

Cited by 63 publications

(55 citation statements)

References 48 publications

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“…Our recent work on the development of highly efficient TiO 2 ‐based VLCs demonstrated the significance of introducing a high but equal concentration of (N 3− , Nb 5+ ) defect pairs for outstanding photocatalytic properties ,. This, in combination with our previous research on (In 3+ , Nb 5+ ), (Al 3+ , Nb 5+ ), (Mg 2+ , Ta 5+ ), (Zn 2+ , Nb 5+ ) and (In 3+ , Ta 5+ ) co‐doped rutile/anatase TiO 2 ceramics/nanocrystals, suggests the complexity of ionic co‐doping in structurally strongly correlated oxides. The introduced extrinsic ions may stay as isolated point defects in host materials and may also form defect‐pairs or clusters coupled with the host ions and local crystal structures.…”

Section: Figuresupporting

confidence: 82%

Highly Efficient Visible Light Catalysts Driven by Ti³⁺‐V_O‐2Ti⁴⁺‐N³⁻ Defect Clusters

et al. 2018

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Local defect structures play significant roles on material properties, but they are seriously neglected in the design, synthesis, and development of highly efficient TiO2‐based visible light catalysts (VLCs). Here, we take anatase TiO2 nanocrystals that contain (Ti3+, N3−) ions and have the complicated chemical formula of (Ti1-normalx4+Tix3+ )(normalO2-normaly-normalz2-normalNy3- □z) as an example, and point out that the formation of Ti3+‐VO‐2Ti4+‐N3− local defect clusters is a key missing step for significantly enhancing VLC properties of host TiO2 nanocrystals. Experimental and theoretical investigations also demonstrate the emergent behaviors of these intentionally introduced defect clusters for developing highly efficient VLCs. This research thus not only provides highly efficient visible light catalysts for various practical applications but also addresses the significance of local defect structures on modifying material properties.

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Section: Figuresupporting

confidence: 82%

Highly Efficient Visible Light Catalysts Driven by Ti³⁺‐V_O‐2Ti⁴⁺‐N³⁻ Defect Clusters

et al. 2018

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“…Thus, multiple Debye‐type relaxations with different τ overlapped each other and show a broad distribution of τ . Different τ resulted in α > 0 when x = 0 . In the rutile INZT ( x > 0) solid solution, Zr 4+ replaces Ti 4+ , which affects the states of localized electrons.…”

Section: Resultsmentioning

confidence: 99%

Influence of Zr dopant on polarization in rutile (In_0.5Nb_0.5)_0.005(Ti_1‐_xZr_x)_0.995O₂ ceramics

et al. 2019

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(In0.5Nb0.5)0.005(Ti1‐xZrx)0.995O2 (INZT, x = 0‐0.10) ceramics were synthesized using a conventional sintering method, and the effects of Zr content on the microstructures, dielectric properties and electron‐pinned defect‐dipoles (EPDD) polarization of the resultant products were investigated. The solubility limit of INZT was x = 0.075, and a secondary ZrTiO4 phase appeared at x = 0.10. Ceramics with x = 0‐0.10 exhibited excellent dielectric properties, ie, colossal permittivity (CP, εʹ > 103) and low dielectric loss (tanδ < 0.1), over a wide range of frequencies (100‐106 Hz at 300 K) and temperatures (50‐350 K at 1 kHz). The dielectric spectra and XPS results confirmed that the CP property of the ceramics could be ascribed to their EPDD polarization. The activation energy (Ea) for EPDD polarization was continuously enhanced by increasing x values. EPDD relaxation parameters at different x values were revealed using Cole‐Cole equation fitting. Moreover, α, which characterize the relaxation time τ distribution, increased with x values, thus indicating that Zr was involved in and affected electron localized states. The high Ea, temperature Tp of the peak εʹʹ at 1 kHz, and dielectric relaxation time τp at 30 K were related to increases in hopping distance of electrons among defect clusters with Zr addition.

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“…In the past decades, giant permittivity materials with a large dielectric constant ( ε r ), low dielectric loss (tanδ), and good thermal stability have attracted much attention due to the requirements for the miniaturization of electronic devices and high‐energy storage capacitors . In 2013, the remarkable dielectric behavior of the materials, In and Nb codoped TiO 2 ‐based ceramics, was reported by Liu et al; these materials showed low dielectric loss (<5%) and large dielectric constant (~10 4 ) and had better temperature stability in the range from 80 to 450 K. Meanwhile, the authors deemed that the origin of the dielectric response was attributed to the intrinsic dielectric effect, that is, the electron pinned defect dipole (EPDD).…”

Section: Introductionmentioning

confidence: 99%

“…In 2013, the remarkable dielectric behavior of the materials, In and Nb codoped TiO 2 ‐based ceramics, was reported by Liu et al; these materials showed low dielectric loss (<5%) and large dielectric constant (~10 4 ) and had better temperature stability in the range from 80 to 450 K. Meanwhile, the authors deemed that the origin of the dielectric response was attributed to the intrinsic dielectric effect, that is, the electron pinned defect dipole (EPDD). Subsequently, based on the same design idea, a series of codoped TiO 2 ‐based ceramics with better dielectric properties were also obtained for other ions (Ca 2+ , Zn 2+ , Mg 2+ , Sc 3+ , Y 3+ , Al 3+ , In 3+ , Yb 3+ , etc., as acceptors and Nb 5+ , Ta 5+ , etc., as donors) …”

Section: Introductionmentioning

confidence: 99%

“…Now, the question has arisen as to whether codoping with different donor and acceptor ions could introduce EPDD in the TiO 2 lattice to finally achieve low dielectric loss in TiO 2 ‐based ceramics. Recently, different EPDD configurations have been successfully designed in Mg 2+ /Zn 2+ and Nb 5+ /Ta 5+ codoped TiO 2 , and these samples show high dielectric constant and low dielectric loss . However, Nb and Al codoping could not promote the formation of EPDD and gave rise to a high dielectric loss .…”

Section: Introductionmentioning

confidence: 99%

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Good thermal stability, giant permittivity, and low dielectric loss for X9R‐type (Ag_1/4Nb_3/4)_0.005Ti_0.995O₂ ceramics

et al. 2018

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With the intense demand of the developing microelectronics market, the study of giant permittivity dielectric materials is being promoted. However, it is difficult to obtain suitable dielectric materials for such applications, especially due to high dielectric loss at low frequencies. In this work, Ag+Nb codoped TiO2 ceramics were designed and fabricated in a conventional solid reaction by sintering at 1290‐1340°C for 5‐10 hours. The issue of how the microstructure and dielectric properties of (Ag1/4Nb3/4)0.005Ti0.995O2 ceramics are affected by the sintering conditions was discussed. By optimizing sintering conditions, a dense microstructure, a high dielectric constant (εr ≈ 9410), and a low dielectric loss (tanδ ≈ 0.037) at 1 kHz were achieved. Most importantly, the temperature coefficient value of εr at different frequencies remained stable between −14.3% and 13.7% within the temperature range from −190 to 200°C, which has potential applications in X9R capacitor.

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Colossal permittivity behavior and its origin in rutile (Mg1/3Ta2/3)xTi1-xO2

Cited by 63 publications

References 48 publications

Highly Efficient Visible Light Catalysts Driven by Ti³⁺‐V_O‐2Ti⁴⁺‐N³⁻ Defect Clusters

Highly Efficient Visible Light Catalysts Driven by Ti³⁺‐V_O‐2Ti⁴⁺‐N³⁻ Defect Clusters

Influence of Zr dopant on polarization in rutile (In_0.5Nb_0.5)_0.005(Ti_1‐_xZr_x)_0.995O₂ ceramics

Good thermal stability, giant permittivity, and low dielectric loss for X9R‐type (Ag_1/4Nb_3/4)_0.005Ti_0.995O₂ ceramics

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Colossal permittivity behavior and its origin in rutile (Mg1/3Ta2/3)xTi1-xO2

Cited by 63 publications

References 48 publications

Highly Efficient Visible Light Catalysts Driven by Ti3+‐VO‐2Ti4+‐N3− Defect Clusters

Highly Efficient Visible Light Catalysts Driven by Ti3+‐VO‐2Ti4+‐N3− Defect Clusters

Influence of Zr dopant on polarization in rutile (In0.5Nb0.5)0.005(Ti1‐xZrx)0.995O2 ceramics

Good thermal stability, giant permittivity, and low dielectric loss for X9R‐type (Ag1/4Nb3/4)0.005Ti0.995O2 ceramics

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Highly Efficient Visible Light Catalysts Driven by Ti³⁺‐V_O‐2Ti⁴⁺‐N³⁻ Defect Clusters

Highly Efficient Visible Light Catalysts Driven by Ti³⁺‐V_O‐2Ti⁴⁺‐N³⁻ Defect Clusters

Influence of Zr dopant on polarization in rutile (In_0.5Nb_0.5)_0.005(Ti_1‐_xZr_x)_0.995O₂ ceramics

Good thermal stability, giant permittivity, and low dielectric loss for X9R‐type (Ag_1/4Nb_3/4)_0.005Ti_0.995O₂ ceramics