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学者姓名:吴啸
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Previous bismuth-based photocatalysts usually employ a strong acid solution (e.g., HNO3 solution) to obtain an ultrathin structure toward high photocatalytic activity. In this work, the ultrathin layered BiOIO3 nanosheets are successfully synthesized using just the glucose hydrothermal solution. The high-concentration glucose solution shows the obvious acidity after the hydrothermal process, which leads to the quick decrease in thickness of BiOIO3 nanosheets from similar to 45.58 to similar to 5.74 nm. The ultrathin structure can greatly improve charge carriers' separation and transfer efficiency. The generation of reductive iodide ions brings about oxygen vacancies in the ultrathin nanosheets, then the defect energy level is formed, causing the decreased band gap and improving the visible light absorption. Compared to thick BiOIO3 nanosheet with little oxygen vacancies, much higher carrier separation efficiency and visible light absorption are achieved in the ultrathin nanosheets with oxygen vacancies, resulting in an excellent photocatalytic performance (0.1980 min(-1) for RhB degradation), which is much higher than most other bismuth-based photocatalysts. The superoxide radicals (O-center dot(2)-) and holes (h(+)) are the major active species responsible for high photocatalytic activity. This work affords an environmentally friendly strategy to synthesize ultrathin photocatalysts with superior photocatalytic properties.
Keyword :
BiOIO3 BiOIO3 glucose hydrothermal synthesizing glucose hydrothermal synthesizing highphotocatalytic activity highphotocatalytic activity oxygenvacancies oxygenvacancies ultrathin nanosheets ultrathin nanosheets
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| GB/T 7714 | Wang, Yabin , Fu, Hanxin , Chen, Yan et al. Ultrathin Layered Structure and Oxygen Vacancies Mediated Efficient Charge Separation toward High Photocatalytic Activity in BiOIO3 Nanosheets [J]. | ACS APPLIED MATERIALS & INTERFACES , 2024 , 16 (5) : 5977-5988 . |
| MLA | Wang, Yabin et al. "Ultrathin Layered Structure and Oxygen Vacancies Mediated Efficient Charge Separation toward High Photocatalytic Activity in BiOIO3 Nanosheets" . | ACS APPLIED MATERIALS & INTERFACES 16 . 5 (2024) : 5977-5988 . |
| APA | Wang, Yabin , Fu, Hanxin , Chen, Yan , Wu, Bo , Lin, Cong , Wu, Xiao et al. Ultrathin Layered Structure and Oxygen Vacancies Mediated Efficient Charge Separation toward High Photocatalytic Activity in BiOIO3 Nanosheets . | ACS APPLIED MATERIALS & INTERFACES , 2024 , 16 (5) , 5977-5988 . |
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In this work, the frequency dependence of ferroelectric and electrocaloric properties in barium titanate-based ceramics was studied based on Maxwell relations. It is found that the maximum and remnant polarization will decrease while the coercive field increases a lot with rising frequency from 0.1 to 10Hz, indicating that polarization rotation and domain switching become difficult at high frequencies. The electrocaloric properties show the different frequency dependence at different phase structures. Isothermal entropy change (Delta S) and adiabatic temperature change (Delta T) are similar around/above Curie temperature (TC), showing tiny frequency dependence. However, Delta S and Delta T display the obvious frequency dependence below TC, especially in the orthorhombic-tetragonal phase-transition region with a stable ferroelectric phase, and this frequency dependence becomes more obvious under a low-electric field. It is also found that increasing the frequency can weaken the electric field dependence of electrocaloric strength. This work gives a general profile of frequency dependence for electrocaloric properties in ferroelectric ceramics.
Keyword :
barium titanate barium titanate Electrocaloric properties Electrocaloric properties ferroelectric ceramics ferroelectric ceramics frequency dependence frequency dependence
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| GB/T 7714 | Shu, Wanting , Li, Hong , Huang, Yanli et al. Frequency-dependent ferroelectric and electrocaloric properties in barium titanate-based ceramics based on Maxwell relations [J]. | JOURNAL OF ADVANCED DIELECTRICS , 2024 , 14 (02) . |
| MLA | Shu, Wanting et al. "Frequency-dependent ferroelectric and electrocaloric properties in barium titanate-based ceramics based on Maxwell relations" . | JOURNAL OF ADVANCED DIELECTRICS 14 . 02 (2024) . |
| APA | Shu, Wanting , Li, Hong , Huang, Yanli , Lin, Cong , Wu, Xiao , Gao, Min et al. Frequency-dependent ferroelectric and electrocaloric properties in barium titanate-based ceramics based on Maxwell relations . | JOURNAL OF ADVANCED DIELECTRICS , 2024 , 14 (02) . |
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Electrocaloric cooling based on ferroelectrics is an eco-friendly technology. BaTiO3 (BT)-based ferroelectric ceramics possess a high electrocaloric effect, which is significantly affected by grain size. Herein, fine and large grains' contributions to electrocaloric and related properties in BT-based ceramics are revealed via tuning sintered dwelling time (ts) in discontinuous grain growth (DGG) process with fine and large grains coexistence. With increasing ts, grain size change can be divided into two stages. The main change is the large-grain size (>100–200 μm) and number in the beginning DGG stage, and the properties' evolutions are mainly contributed by large grain change. The bigger grain size of large and fine grains contributes to the higher electrocaloric property, sharper phase transition, ferroelectric polarization (change rate), and coercive field. In the subsequent stage, fine grains gradually grow up (∼4.0–5.0 μm) while large-grain size decreases slightly. Here the properties' evolutions are influenced by the competitive contributions between fine and large grains. Large grain contribution is mainly attributed to the domain size effect, and fine grain contribution should embrace the domain size effect and grain-boundary pinning effect. This work contributes to a broad understanding of fine/large grain contributions in the promising BT-based electrocaloric ceramics. © 2024 Elsevier B.V.
Keyword :
BaTiO3-based ceramics BaTiO3-based ceramics Discontinuous grain growth Discontinuous grain growth Dwelling time of sintering Dwelling time of sintering Electrocaloric properties Electrocaloric properties Fine and large grain contributions Fine and large grain contributions
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| GB/T 7714 | Huang, X. , Li, H. , Xu, W. et al. Dwelling time influences on discontinuous grain growth and fine/large grain contributions in barium titanate-based electrocaloric ceramics [J]. | Journal of Alloys and Compounds , 2024 , 1004 . |
| MLA | Huang, X. et al. "Dwelling time influences on discontinuous grain growth and fine/large grain contributions in barium titanate-based electrocaloric ceramics" . | Journal of Alloys and Compounds 1004 (2024) . |
| APA | Huang, X. , Li, H. , Xu, W. , Zhao, C. , Wu, X. , Gao, M. et al. Dwelling time influences on discontinuous grain growth and fine/large grain contributions in barium titanate-based electrocaloric ceramics . | Journal of Alloys and Compounds , 2024 , 1004 . |
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Influences of calcination temperature (T-cal) on discontinuous grain growth (DGG), and related grain size effect on structure/ferroelectric/electrocaloric properties were studied and compared in fine-/large-grain Ba(Ti0.85Zr0.15)O-3 ceramics. DGG phenomena from several to >100 mu m are all observed with rising sintering temperature (T-S). Increasing T-cal (1200-1320 degrees C) can cause larger powders but decrease the sintering activity, leading to a higher critical T-S (1320-1360 degrees C) of DGG. Relatively high T-cal (larger powder size) will lead to smaller ceramic grains and density before DGG, while being prone to obtain larger grains and stronger ferroelectric correlations, but lower density after DGG. The over-sized powders and smaller grains/density will present in ceramics if T-cal closes to critical T-S. In fine- and large-grain ceramics, grain size variation is similar to the evolution of dielectric, ferroelectric polarization, and electrocaloric properties, but shows an opposite variation trend with coercive field and relaxor phase transition. Electrocaloric strength of fine-grain ceramics increases with a rising electric field due to their difficult domain switching, while an opposite trend shows in large-grain ceramics. Finally, higher electrocaloric properties are obtained in ceramics with relatively big grains because of easier polarization rotation, higher polarization, and polarization change rate.
Keyword :
BaTiO3-based ceramics BaTiO3-based ceramics Calcining temperature Calcining temperature Discontinuous grain growth Discontinuous grain growth Electrocaloric properties Electrocaloric properties Fine- and large-grain size effect Fine- and large-grain size effect
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| GB/T 7714 | Xu, Wei , Huang, Xi , Li, Hong et al. Calcination temperature-associated discontinuous grain size effect on electrocaloric properties in fine-/large-grain BaTiO3-based ferroelectric ceramics [J]. | JOURNAL OF THE EUROPEAN CERAMIC SOCIETY , 2024 , 44 (12) : 7071-7080 . |
| MLA | Xu, Wei et al. "Calcination temperature-associated discontinuous grain size effect on electrocaloric properties in fine-/large-grain BaTiO3-based ferroelectric ceramics" . | JOURNAL OF THE EUROPEAN CERAMIC SOCIETY 44 . 12 (2024) : 7071-7080 . |
| APA | Xu, Wei , Huang, Xi , Li, Hong , Lin, Cong , Wu, Xiao , Gao, Min et al. Calcination temperature-associated discontinuous grain size effect on electrocaloric properties in fine-/large-grain BaTiO3-based ferroelectric ceramics . | JOURNAL OF THE EUROPEAN CERAMIC SOCIETY , 2024 , 44 (12) , 7071-7080 . |
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Two-dimensional (2D) transition metal dichalcogenides (TMDs) room temperature (RT) gas sensors are of great value for monitoring leaks of hazardous gases under harsh environments. However, the highly sensitive and rapid detection of TMDs in an energy-efficient state is still a formidable obstacle. This work reports the ultrasensitive NO2 sensor based on rare-earth Nd doped VS2/carbon nanofibers (CNFs) (abbreviated as x%Nd-VS2-C), which exhibits a fast response/recovery and intense response at RT. The impact of the Nd doping amount on the NO2-sensing properties of x%Nd-VS2-C was systematically explored. The active Nd-doping and abundant S vacancies could activate the inert basal planes of VS2 efficiently and increase the active sites of the surface, thereby improving the NO2-sensing performance of the sensor. Additionally, theoretical calculations validate the finding by demonstrating a more negative NO2 adsorption energy of -3.12 eV on the (001) surface of Nd-VS2-C compared to -1.26 eV on pure VS2. The 2% Nd-VS2-C exhibits optimal RT NO2-sensing properties, with a thrilling response/recovery rate (similar to 17 s/20 s), high sensitivity (similar to 3.03 to 10 ppm of NO2), favorable selectivity and stability, and low detection limit (18 ppb). The outstanding "'4S'" features make the 2%Nd-VS2-C sensor greatly attractive for precise and ultrasensitive NO2 detection at RT.
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| GB/T 7714 | Wang, Huajing , Cui, Zhou , Xiong, Rui et al. Room Temperature Ultrasensitive NO2 Detection by Activating VS2 Basal Planes in Rare-Earth Nd-Doped VS2/Carbon Nanofibers [J]. | ACS MATERIALS LETTERS , 2024 , 6 (7) : 2617-2625 . |
| MLA | Wang, Huajing et al. "Room Temperature Ultrasensitive NO2 Detection by Activating VS2 Basal Planes in Rare-Earth Nd-Doped VS2/Carbon Nanofibers" . | ACS MATERIALS LETTERS 6 . 7 (2024) : 2617-2625 . |
| APA | Wang, Huajing , Cui, Zhou , Xiong, Rui , Tang, Lu , Ming, Yue , Wu, Xiao et al. Room Temperature Ultrasensitive NO2 Detection by Activating VS2 Basal Planes in Rare-Earth Nd-Doped VS2/Carbon Nanofibers . | ACS MATERIALS LETTERS , 2024 , 6 (7) , 2617-2625 . |
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Achieving high-quality white light and related effective modulation is crucial for the development of solid-state luminescent materials. However, white emission is frequently manipulated through irreversible chemical routes, departing from the actual applications in solid-state lighting devices that require in-situ modulation. In this study, we designed and prepared La3+/Dy3+/Eu3+ tri-doped (K0.5Na0.5)NbO3 transparent-ferroelectric ceramics, which exhibit abundant optical properties and moderate ferroelectricity. For the characteristics of white light, the emission colors could be regulated by adjusting the excitation wavelength. Meanwhile, on the basis of the decrease in photoluminescence intensity due to photochromic (PC) behavior, modulations of white emission and color coordinates were realized. The regulation of optical properties through the physical route (i.e., maneuverable light illumination) is closer to practical application. In addition, the excellent fluorescence temperature sensing properties (a maximum relative sensitivity of 7.81 % K−1 obtained at 233 K) and high PC contrast (75.8 %) of the ceramics provide guidance for the design of other multifunctional optoelectronic materials and devices. © 2024 Elsevier Ltd and Techna Group S.r.l.
Keyword :
Fluorescence temperature sensing Fluorescence temperature sensing K0.5Na0.5)NbO3 K0.5Na0.5)NbO3 Photochromism Photochromism White light modulation White light modulation
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| GB/T 7714 | Lin, Q. , Zhou, P. , Zeng, X. et al. Modulations of high-quality white emission and fluorescence temperature sensing in La/Dy/Eu tri-doped KNN transparent-ferroelectric ceramics [J]. | Ceramics International , 2024 . |
| MLA | Lin, Q. et al. "Modulations of high-quality white emission and fluorescence temperature sensing in La/Dy/Eu tri-doped KNN transparent-ferroelectric ceramics" . | Ceramics International (2024) . |
| APA | Lin, Q. , Zhou, P. , Zeng, X. , Lin, M. , Gao, M. , Zhao, C. et al. Modulations of high-quality white emission and fluorescence temperature sensing in La/Dy/Eu tri-doped KNN transparent-ferroelectric ceramics . | Ceramics International , 2024 . |
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Piezo-catalysis is a green and effective method for degrading rich and obstinate molecules in wastewater. Yet, the piezo-catalytic performance of frequently-used barium titanate (BTO) is still limited for practical applications, thus it is crucial to construct high-efficiency BTO-based catalysts. Herein, BiOBr/BTO heterojunction-based piezo-photocatalysts were successfully prepared using the chemical precipitation method, and an internal electric field was established via ultrasound to promote the separation of photogenerated electron-hole pairs through the synergistic effect of piezocatalysis and photocatalysis. Transmission electron microscopy, Raman spectroscopy and X-ray photoelectron spectroscopy were utilized to characterize the heterojunction. The degradation performance of Rhodamine B (RhB) by BiOBr/BTO is the best among various pollutants, giving a reaction rate constant up to 20.839 x 10 -2 min -1 , exceeding numerous previously reported catalysts. In addition, the piezo-photocatalytic reaction rate of BiOBr/BTO for Methyl Orange was 9.298 x 10 -2 min -1 , approximate to 3.3 times than those of pure BTO (2.806 x 10 -2 min -1 ), and also approximate to 15.9 times and 3.3 times than those of single photocatalysis (0.585 x 10 -2 min -1 ) or piezocatalysis (2.848 x 10 -2 min - 1 ). Importantly, the BiOBr/BTO heterojunction demonstrates excellent catalytic degradation performance for a broad range of pollutants (e.g., dyes and antibiotics) and their mixtures, as well as favorable cycling stability and repeatability with changed environmental conditions, displaying applicability in actual wastewater treatment. The possible degradation pathways of RhB were analyzed by liquid chromatography-mass spectrometry. The present work supplies a feasible strategy for the preparation of high-efficiency piezo-photocatalytic BTO-based heterojunctions, which can guide other composites for environmental remediation.
Keyword :
BiOBr/BTO BiOBr/BTO Heterojunction Heterojunction Piezo-photocatalytic Piezo-photocatalytic Pollutant degradation Pollutant degradation
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| GB/T 7714 | Zhong, Shiqi , Wang, Yabin , Chen, Yan et al. Improved piezo-photocatalysis for aquatic multi-pollutant removal via BiOBr/BaTiO 3 heterojunction construction [J]. | CHEMICAL ENGINEERING JOURNAL , 2024 , 488 . |
| MLA | Zhong, Shiqi et al. "Improved piezo-photocatalysis for aquatic multi-pollutant removal via BiOBr/BaTiO 3 heterojunction construction" . | CHEMICAL ENGINEERING JOURNAL 488 (2024) . |
| APA | Zhong, Shiqi , Wang, Yabin , Chen, Yan , Jiang, Xingan , Lin, Mei , Lin, Cong et al. Improved piezo-photocatalysis for aquatic multi-pollutant removal via BiOBr/BaTiO 3 heterojunction construction . | CHEMICAL ENGINEERING JOURNAL , 2024 , 488 . |
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Transparent dielectric ceramics are splendid candidates for transparent pulse capacitors (TPCs) due to splendid cycle stability and large power density. However, the performance and service life of TPCs at present are threatened by overheating damage caused by dielectric loss. Here, a cooperative optimization strategy of microstructure control and superparaelectric regional regulation is proposed to simultaneously achieve excellent energy storage performance and real-time temperature monitoring function in NaNbO3-based ceramics. By introducing aliovalent ions and oxides with large bandgap energy, the size of polar nanoregions is continuously reduced. Due to the combined effect of increased relaxor behavior and fine grains, excellent comprehensive performances are obtained through doping appropriate amounts of Bi, Yb, Tm, and Zr, Ta, Hf in A- and B-sites of the NaNbO3 matrix, including recoverable energy storage density (5.39 J cm(-3)), extremely high energy storage efficiency (91.97%), ultra-fast discharge time (29 ns), and superior optical transmittance (approximate to 47.5% at 736 nm). Additionally, the phenomenon of abnormal fluorescent negative thermal expansion is realized due to activation mechanism of surface phonon at high temperatures that can promote the formation of [YbO]-Tm3+ pairs, showing great potential in real-time temperature monitoring of TPCs. This research provides ideas for developing electronic devices with multiple functionalities.
Keyword :
cooperative optimization cooperative optimization energy storage energy storage fluorescent negative thermal expansion fluorescent negative thermal expansion superparaelectric superparaelectric transparent ceramics transparent ceramics
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| GB/T 7714 | Zeng, Xiangfu , Lin, Jinfeng , Chen, Yan et al. Superior Energy Storage Capability and Fluorescence Negative Thermal Expansion of NaNbO3-Based Transparent Ceramics by Synergistic Optimization [J]. | SMALL , 2024 , 20 (24) . |
| MLA | Zeng, Xiangfu et al. "Superior Energy Storage Capability and Fluorescence Negative Thermal Expansion of NaNbO3-Based Transparent Ceramics by Synergistic Optimization" . | SMALL 20 . 24 (2024) . |
| APA | Zeng, Xiangfu , Lin, Jinfeng , Chen, Yan , Wang, Simin , Zhou, Ping , Yu, Fangyuan et al. Superior Energy Storage Capability and Fluorescence Negative Thermal Expansion of NaNbO3-Based Transparent Ceramics by Synergistic Optimization . | SMALL , 2024 , 20 (24) . |
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The development of high-performance lead-free K0.5Na0.5NbO3-based piezoceramics for replacing commercial lead-containing counterparts is crucial for achieving environmentally sustainable society. Although the proposed new phase boundaries (NPB) can effectively improve the piezoelectricity of KNN-based ceramics, the difficulty of achieving saturated poling and the underlying multiscale structures resolution of their complex microstructures are urgent issues. Here, we employ a medium entropy strategy to design NPB and utilize texture engineering to induce crystal orientation. The developed K0.5Na0.5NbO3-based ceramics enjoys both prominent piezoelectric performance and satisfactory Curie temperature, thus exhibiting an ultrahigh energy harvesting performance as well as excellent transducer performance, which is highly competitive in both lead-free and lead-based piezoceramics. Comprehensive structural analysis have ascertained that the field-induced efficient multiscale polarization configurations irreversible transitions greatly encourages high saturated poling. This study demonstrates a strategy for designing high-performance piezoceramics and establishes a close correlation between the piezoelectricty and the underlying multiscale structures. There are difficulty of achieving saturated poling and understanding of multi-scale structures in (K, Na)NbO3 ceramics. Here, the authors find atomic-scale polymorphic distortion and micrometer-scale high-density thin striped domains, which is key for high saturated poling.
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| GB/T 7714 | Lin, Jinfeng , Qian, Jin , Ge, Guanglong et al. Multiscale reconfiguration induced highly saturated poling in lead-free piezoceramics for giant energy conversion [J]. | NATURE COMMUNICATIONS , 2024 , 15 (1) . |
| MLA | Lin, Jinfeng et al. "Multiscale reconfiguration induced highly saturated poling in lead-free piezoceramics for giant energy conversion" . | NATURE COMMUNICATIONS 15 . 1 (2024) . |
| APA | Lin, Jinfeng , Qian, Jin , Ge, Guanglong , Yang, Yuxuan , Li, Jiangfan , Wu, Xiao et al. Multiscale reconfiguration induced highly saturated poling in lead-free piezoceramics for giant energy conversion . | NATURE COMMUNICATIONS , 2024 , 15 (1) . |
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High entropy perovskite oxides (HEPOs) have received increasing attention due to their appealing photocatalytic activity. Considering their excellent ferroelectric properties used as energy storage capacitors, it is promising for HEPOs to exhibit remarkable pizeo-photocatalytic properties. Herein, (Bi0.2Na0.2Ba0.2K0.2La0.2)TiO3 (BNBKL) HEPO powders were prepared by the traditional solid-state reaction method to demonstrate the advantages of HEPO in the piezo-photocatalytic degradation of organic contaminants. The results evidence that the BNBKL HEPO has excellent catalytic activity compared to traditional piezo-photocatalysis, which is fundamentally based on the high-entropy-induced band structure reconstruction and severer lattice distortions, shedding light on a viable and universal strategy for substantially enhancing the catalytic efficiency of piezo-photocatalyst.
Keyword :
Dye degradation Dye degradation High entropy oxide High entropy oxide Organic dye pollutants Organic dye pollutants Perovskite Perovskite Piezo-photocatalysts Piezo-photocatalysts
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| GB/T 7714 | Fu, Hanxin , Li, Su , Lin, Yanchen et al. Enhancement of piezo-photocatalytic activity in perovskite (Bi0.2Na0.2Ba0.2K0.2La0.2)TiO3 oxides via high entropy induced lattice distortion and energy band reconfiguration [J]. | CERAMICS INTERNATIONAL , 2024 , 50 (6) : 9159-9168 . |
| MLA | Fu, Hanxin et al. "Enhancement of piezo-photocatalytic activity in perovskite (Bi0.2Na0.2Ba0.2K0.2La0.2)TiO3 oxides via high entropy induced lattice distortion and energy band reconfiguration" . | CERAMICS INTERNATIONAL 50 . 6 (2024) : 9159-9168 . |
| APA | Fu, Hanxin , Li, Su , Lin, Yanchen , Wu, Xiao , Lin, Tengfei , Zhao, Chunlin et al. Enhancement of piezo-photocatalytic activity in perovskite (Bi0.2Na0.2Ba0.2K0.2La0.2)TiO3 oxides via high entropy induced lattice distortion and energy band reconfiguration . | CERAMICS INTERNATIONAL , 2024 , 50 (6) , 9159-9168 . |
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