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232 results on '"Gao, Xing‐Yu"'

1. Self-consistent pressure-dependent on-site Coulomb correction for zero-temperature equations of state of $f$-electron metals

Author

Liu, Bei-Lei, Wang, Yue-Chao, Gao, Xing-Yu, Liu, Hai-Feng, and Song, Hai-Feng

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

The $f$-electron materials have many unique properties under pressure, thus of great interest in high-pressure physics and related industrial fields. However, the $f$-electrons pose a substantial challenge to simulations since the electron correlation effects. In this work, we present a first-principles calculation scheme for the equations of state (EoS) of $f$-electron materials. The self-consistent pressure-dependent on-site Coulomb correction is performed based on our recently developed doubly screened Coulomb correction approach. We investigate the zero-temperature EoS over a wide range of pressures and the phase stabilities of four prototypical lanthanide and actinide metals, Pr, Eu, Th and U. The simulated compressive properties are in better agreement with the experimental data than those obtained by conventional density functional theory (DFT) and fixed-parameter DFT+$U$ approaches. The pressure-induced phase transitions can also be well described.

Published
2024

6. The underestimation of high pressure in DFT+$U$ simulation for the wide range cold-pressure of lanthanide metals

Author

Wang, Yue-Chao, Liu, Bei-Lei, Liu, Yu, Liu, Hai-Feng, Bi, Yan, Gao, Xing-Yu, Sheng, Jie, Song, Hong-Zhou, Tian, Ming-Feng, and Song, Hai-Feng

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Density functional theory plus $U$ (DFT+$U$) is one of the most efficient first-principles methods to simulate the cold pressure properties of strongly-correlated materials. However, the applicability of DFT+$U$ at ultra-high pressure is not sufficiently studied, especially in the widely-used augmented schemes [such as projector augmented wave (PAW) and linearized augmented plane wave (LAPW)]. This work has systematically investigated the performance of DFT+$U$ in PAW and LAPW at the pressure up to several hundred GPa for the lanthanide metals, which is a typical strongly-correlated series. We found DFT+$U$ simulation in PAW exhibits an unphysical underestimating of force at high pressure. By delicate analysis and comparison with local-orbital-independent hybrid functional results, we have demonstrated that this unphysical behavior is related to a normalization problem on the local density matrix caused by the overlap of local orbitals in PAW under high pressure. Additionally, we observed a slight softening of force in DFT+$U$ in heavy lanthanides (Tm, Yb and Lu) at high pressure comparing with the DFT results without the influence of local orbital overlap, and it might be related to the enhancement of bonding effect in correlation correction methods at high pressure. Our work reveals the underestimating of high pressure in DFT+$U$ simulation, analyses two sources of this unusual behavior and proposes their mechanism. Most importantly, our investigation highlights the breakdown of DFT+$U$ for high pressure simulation in VASP package based on PAW framework., Comment: 20 pages, 8 figures

Published
2021

10. A first principles study of high pressure phase diagram of bismuth at 0 ~14 GPa based on structure search and quasi-harmonic approximation

Author

Zhao, Ya-Fan, Li, Shou-Rui, Gao, Xing-Yu, Tian, Ming-Feng, and Song, Hai-Feng

Subjects
Condensed Matter - Materials Science
Abstract

We have performed first principles study for bismuth crystal structure at pressure from 0~14 GPa based on structure search and quasi-harmonic approximation. A new stable phase with Pbcm symmetry is predicted by structure search method. We find that the most stable structures of bismuth at 0 K are R-3m(0 ~ 3.29 GPa), Pbcm (3.29 GPa ~ 4.91 GPa), Cmce (4.91 GPa ~ 10.57 GPa) and Im-3m ( > 10.57 GPa), respectively. By quasi-harmonic approximation, we predicted the phase diagram of bismuth from first principles calculations. We found that the phase transition pressure reduces with increasing temperature. Our calculation agrees with the trend of experimental phase diagram. The P4/ncc model structure for the incommensurate Bi-III phase is not a stable phase in our calculation. A better model for the Bi-III phase is still needed. We also note that the spin-orbital interaction is very important for phase-diagram simulation of bismuth. By using first principle based structure search method, we successfully determine the low temperature high pressure phase diagram of bismuth, showing that the structure search method can effectively find the most stable structure of given material at high pressure even with high Z elements.

Published
2019

12. New zirconium hydrides predicted by structure search method based on first principles calculations

Author

Zhu, Xueyan, Lin, De-Ye, Fang, Jun, Gao, Xing-Yu, Zhao, Ya-Fan, and Song, Hai-Feng

Subjects
Condensed Matter - Materials Science
Abstract

The formation of precipitated zirconium (Zr) hydrides is closely related to the hydrogen embrittlement problem for the cladding materials of pressured water reactors (PWR). In this work, we systematically investigated the crystal structures of zirconium hydride (ZrHx) with different hydrogen concentrations (x = 0~2, atomic ratio) by combining the basin hopping algorithm with first principles calculations. We conclude that the P3m1 {\zeta}-ZrH0.5 is dynamically unstable, while a novel dynamically stable P3m1 ZrH0.5 structure was discovered in the structure search. The stability of bistable P42/nnm ZrH1.5 structures and I4/mmm ZrH2 structures are also revisited. We find that the P42/nnm (c/a > 1) ZrH1.5 is dynamically unstable, while the I4/mmm (c/a = 1.57) ZrH2 is dynamically stable.The P42/nnm (c/a < 1) ZrH1.5 might be a key intermediate phase for the transition of {\gamma}->{\delta}->{\epsilon} phases. Additionally, by using the thermal dynamic simulations, we find that {\delta}-ZrH1.5 is the most stable structure at high temperature while ZrH2 is the most stable hydride at low temperature. Slow cooling process will promote the formation of {\delta}-ZrH1.5, and fast cooling process will promote the formation of {\gamma}-ZrH. These results may help to understand the phase transitions of zirconium hydrides.

Published
2017

13. Chemical Reaction Modulated Low‐Dimensional Phase Toward Highly Efficient Sky‐Blue Perovskite Light‐Emitting Diodes.

Author

Wang, Bin, Lou, Yan‐Hui, Xia, Yu, Hu, Fan, Li, Yu‐Han, Wang, Kai‐Li, Chen, Jing, Chen, Chun‐Hao, Su, Zhen‐Huang, Gao, Xing‐Yu, and Wang, Zhao‐Kui

Subjects
PHASE modulation, QUANTUM efficiency, LIGHT emitting diodes, CHEMICAL reactions, DOPING agents (Chemistry)
Abstract

Blue perovskite light‐emitting diodes (PeLEDs) are crucial avenues for achieving full‐color displays and lighting based on perovskite materials. However, the relatively low external quantum efficiency (EQE) has hindered their progression towards commercial applications. Quasi‐two‐dimensional (quasi‐2D) perovskites stand out as promising candidates for blue PeLEDs, with optimized control over low‐dimensional phases contributing to enhanced radiative properties of excitons. Herein, the impact of organic molecular dopants on the crystallization of various n‐phase structures in quasi‐2D perovskite films. The results reveal that the highly reactive bis(4‐(trifluoromethyl)phenyl)phosphine oxide (BTF‐PPO) molecule could effectively restrain the formation of organic spacer cation‐ordered layered perovskite phases through chemical reactions, simultaneously passivate those uncoordinated Pb2+ defects. Consequently, the prepared PeLEDs exhibited a maximum EQE of 16.6 % (@ 490 nm). The finding provides a new route to design dopant molecules for phase modulation in quasi‐2D PeLEDs. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Lead Isolation and Capture in Perovskite Photovoltaics toward Eco‐Friendly Commercialization

Author

Chen, Chun‐Hao, primary, Cheng, Shu‐Ning, additional, Hu, Fan, additional, Su, Zhen‐Huang, additional, Wang, Kai‐Li, additional, Cheng, Liang, additional, Chen, Jing, additional, Shi, Yi‐Ran, additional, Xia, Yu, additional, Teng, Tian‐Yu, additional, Gao, Xing‐Yu, additional, Yavuz, Ilhan, additional, Lou, Yan‐Hui, additional, and Wang, Zhao‐Kui, additional

Published
2024
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18. Magnetic-biased chiral molecules enabling highly orientated photovoltaic perovskites

Author

Chen, Jing, primary, Deger, Caner, additional, Su, Zhen-Huang, additional, Wang, Kai-Li, additional, Zhu, Guang-Peng, additional, Wu, Jun-Jie, additional, He, Bing-Chen, additional, Chen, Chun-Hao, additional, Wang, Tao, additional, Gao, Xing-Yu, additional, Yavuz, Ilhan, additional, Lou, Yan-Hui, additional, Wang, Zhao-Kui, additional, and Liao, Liang-Sheng, additional

Published
2023
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21. Ion–Dipole Interaction Enabling Highly Efficient CsPbI3 Perovskite Indoor Photovoltaics

Author

Wang, Kai‐Li, primary, Lu, Haizhou, additional, Li, Meng, additional, Chen, Chun‐Hao, additional, Bo Zhang, Ding‐, additional, Chen, Jing, additional, Wu, Jun‐Jie, additional, Zhou, Yu‐Hang, additional, Wang, Xue‐Qi, additional, Su, Zhen‐Huang, additional, Shi, Yi‐Ran, additional, Tian, Qi‐Sheng, additional, Ni, Yu‐Xiang, additional, Gao, Xing‐Yu, additional, Zakeeruddin, Shaik M., additional, Grätzel, Michael, additional, Wang, Zhao‐Kui, additional, and Liao, Liang‐Sheng, additional

Published
2023
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22. Magnetic-biased chiral molecules enabling highly oriented photovoltaic perovskites.

Author

Chen, Jing, Deger, Caner, Su, Zhen-Huang, Wang, Kai-Li, Zhu, Guang-Peng, Wu, Jun-Jie, He, Bing-Chen, Chen, Chun-Hao, Wang, Tao, Gao, Xing-Yu, Yavuz, Ilhan, Lou, Yan-Hui, Wang, Zhao-Kui, and Liao, Liang-Sheng

Subjects
PEROVSKITE, MAGNETIC dipole moments, MAGNETIC entropy, OPEN-circuit voltage, MOLECULES, FORMAMIDINES, PASSIVATION
Abstract

The interaction between sites A, B and X with passivation molecules is restricted when the conventional passivation strategy is applied in perovskite (ABX3) photovoltaics. Fortunately, the revolving A-site presents an opportunity to strengthen this interaction by utilizing an external field. Herein, we propose a novel approach to achieving an ordered magnetic dipole moment, which is regulated by a magnetic field via the coupling effect between the chiral passivation molecule and the A-site (formamidine ion) in perovskites. This strategy can increase the molecular interaction energy by approximately four times and ensure a well-ordered molecular arrangement. The quality of the deposited perovskite film is significantly optimized with inhibited nonradiative recombination. It manages to reduce the open-circuit voltage loss of photovoltaic devices to 360 mV and increase the power conversion efficiency to 25.22%. This finding provides a new insight into the exploration of A-sites in perovskites and offers a novel route to improving the device performance of perovskite photovoltaics. [ABSTRACT FROM AUTHOR]

Published
2024
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29. Spring‐Like Ammonium Salt Assisting Stress Release for Low‐Temperature Deposited FAPbI3 Films Toward Flexible Photovoltaic Application.

Author

Chen, Chun‐Hao, Hu, Fan, Su, Zhen‐Huang, Yu, Yan‐Jun, Wang, Kai‐Li, Shi, Yi‐Ran, Chen, Jing, Xia, Yu, Gao, Xing‐Yu, Wang, Zhao‐Kui, and Liao, Liang‐Sheng

Subjects
PHASE transitions, BAND gaps, LEAD iodide, SOLAR cells, CRYSTAL grain boundaries, AMMONIUM salts, PEROVSKITE
Abstract

The substrates of conventional flexible perovskite solar cells (FPSCs) are thermoplastic polymer material polyethylene naphthalate (PEN), which will deform during high temperature annealing process. In addition, lead iodide (PbI2) permanently formed and the substrate undergoes reversible deformation from 20 °C to 200 °C and back to 20 °C. Therefore, to balance the substrate supporting capacity and the crystalline quality of narrow band gap α‐phase formamidinium lead iodide (α‐FAPbI3), an annealing process of 120 °C for 30 minutes is determined. Additionally, there will also be a large number of gaps and lattice strain at the perovskite grain boundaries during the annealing process as the FAPbI3 phase transition is accompanied by much lattice shrinkage. As a result, 1,6‐hexanediammonium diiodide (HADI) is chosen to passivate the defects and release the stress of perovskite film. Therefore, a recorded 1.4% extended stretch rate of the flexible film is attained. Finally, the champion PCE of 21.14% under AM 1.5G and 31.52% under 1062 lux is achieved after HADI treatment, accompanied by a better long‐term and mechanical stability. This study provides annealing process optimization and stress relief strategies for the further development of narrow band gap FPSCs. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Significant enhancement of scintillation performance by inducing oxygen vacancies in alkali metal ion (A+ = Li+, Na+, K+)-incorporated (Lu, Sc)BO3:Ce

Author

Yang, Yun-Ling, primary, Chen, Jia-Xuan, additional, Guo, Fan, additional, Huang, Meng, additional, Liang, Shan-Shan, additional, Li, Qian-Li, additional, Hu, Jian-Feng, additional, Zhao, Jing-Tai, additional, Gao, Xing-Yu, additional, Fu, Ya-Nan, additional, Lin, Hui, additional, Cheng, Shuai, additional, and Zhang, Zhi-Jun, additional

Published
2022
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36. Unraveling the Role of Crystallization Dynamics on Luminescence Characteristics of Perovskite Light‐Emitting Diodes

Author

Shen, Kong‐Chao, primary, Wang, Jing‐Kun, additional, Shen, Yang, additional, Li, Yan‐Qing, additional, Guo, Ming‐Lei, additional, Su, Zhen‐Huang, additional, Lu, Lin‐Yang, additional, Cai, Xiao‐Yi, additional, Chen, Li, additional, Song, Fei, additional, Gao, Xing‐Yu, additional, Tang, Jian‐Xin, additional, and Ueno, Nobuo, additional

Published
2021
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38. Rapid Nucleation and Slow Crystal Growth of CsPbI3 Films Aided by Solvent Molecular Sieve for Perovskite Photovoltaics.

Author

Wang, Kai‐Li, Su, Zhen‐Huang, Lou, Yan‐Hui, Lv, Qiang, Chen, Jing, Shi, Yi‐Ran, Chen, Chun‐Hao, Zhou, Yu‐Hang, Gao, Xing‐Yu, Wang, Zhao‐Kui, and Liao, Liang‐Sheng

Subjects
CRYSTAL growth, MOLECULAR sieves, NUCLEATION, PEROVSKITE, PHOTOVOLTAIC power generation, PASSIVATION, SUPERSATURATION, SOLVENTS
Abstract

The main reason for large energy loss in all‐inorganic perovskites is ascribed to the slow nucleation and fast crystallization of all‐inorganic perovskite films. Herein, a manipulating strategy is demonstrated to simultaneously realize rapid nucleation and slow crystal growth of CsPbI3 perovskite films by employing solvent molecular sieves in the antisolvent. First, the antisolvent treatment of mixed chlorobenzene and ethyl alcohol can induce the instantaneous supersaturation of perovskites to achieve rapid nucleation. Subsequently, the molecular layer of phthalimide (2‐N) molecules on the perovskite surface can be used as solvent molecular sieves to precisely control the evaporation of the solvent through molecule–solvent interactions. In addition, the molecules remaining on the surface can also effectively passivate the surface defects and improve the device performance. By this strategy, a synchronous regulation of rapid nucleation and slow crystal growth of perovskite films is realized for the first time. As a result, the CsPbI3 film with 2‐N treatment presents high‐quality crystallinity with large grains and less defects. The champion device exhibits an outdoor power conversion efficiency (PCE) up to 20.14% under AM1.5G illumination, and an indoor PCE up to 40.07% (Pout:133.9 µW cm–2) under a commonly used light‐emitting diode light source (2956 K, 1062 lux). [ABSTRACT FROM AUTHOR]

Published
2022
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39. Significant enhancement of scintillation performance by inducing oxygen vacancies in alkali metal ion (A+ = Li+, Na+, K+)-incorporated (Lu, Sc)BO3:Ce.

Author

Yang, Yun-Ling, Chen, Jia-Xuan, Guo, Fan, Huang, Meng, Liang, Shan-Shan, Li, Qian-Li, Hu, Jian-Feng, Zhao, Jing-Tai, Gao, Xing-Yu, Fu, Ya-Nan, Lin, Hui, Cheng, Shuai, and Zhang, Zhi-Jun

Subjects
ALKALI metal ions, ALKALI metals, CERIUM oxides, X-ray detection, SINGLE crystals, THIN films, CHARGE carriers
Abstract

The incorporation of Sc3+ can stabilize calcite-phase LuBO3:Ce3+ to grow large-sized single crystals but leads to the significant degradation of scintillation performance. In the present work, alkali metal ion (A+ = Li+, Na+, K+)-incorporated (Lu, A, Sc)BO3:Ce was rapidly synthesized in batches via a high-throughput sol–gel method. The aliovalent substitution of Lu3+ with A+ is balanced by the generation of oxygen vacancies by forming complexes. Thanks to the increased oxygen vacancies, the luminescence and XEL intensity of (Lu, Li, Sc)BO3:Ce are significantly enhanced by 2.2 times and 1.9 times, respectively. Further, the incorporation of A+ is attributed to the improved transition efficiency of charge carriers. The prepared scintillation screen fabricated with LASBO:Ce and PMMA shows that the spatial resolution can reach 8.6 lp mm−1, indicating its potential application in efficient and low-cost non-destructive X-ray detection. This work is of great significance in improving the luminescence and scintillation performance of (Lu, Sc)BO3:Ce single crystals and thin films and their application in the scintillation field. [ABSTRACT FROM AUTHOR]

Published
2022
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47. Ultrathin Nanosheets of Oxo‐functionalized Graphene Inhibit the Ion Migration in Perovskite Solar Cells

Author

Li, Meng, primary, Zuo, Wei‐Wei, additional, Wang, Qiong, additional, Wang, Kai‐Li, additional, Zhuo, Ming‐Peng, additional, Köbler, Hans, additional, Halbig, Christian E., additional, Eigler, Siegfried, additional, Yang, Ying‐Guo, additional, Gao, Xing‐Yu, additional, Wang, Zhao‐Kui, additional, Li, Yongfang, additional, and Abate, Antonio, additional

Published
2019
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48. 线激光光条中心内部推进提取算法

Author

Hu Zeng, Li Weiming, Yu Haoyong, Mei Feng, and Gao Xing-yu

Subjects
Physics, Optics, business.industry, law, Center (algebra and category theory), Electrical and Electronic Engineering, Line (text file), Propulsion, business, Laser, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention
Published
2021

49. The influence of Sc substitution on the crystal structure and scintillation properties of LuBO3:Ce3+ based on a combinatorial materials chip and high-throughput XRD.

Author

Liang, Shan-Shan, Huang, Meng, Wang, Yu, Li, Qian-Li, Yang, Xin-Xin, Zhao, Jing-Tai, Gao, Xing-Yu, Yin, Guang-Zhi, Liu, Qian, and Zhang, Zhi-Jun

Abstract

A (Lu1−xScx)0.99Ce0.01BO3 (LSBO:Ce, x = 0–1) material library is successfully prepared via combinatorial materials technology, and the crystal structures are characterized via a high-throughput XRD platform at the Shanghai Synchrotron Radiation Facility (SSRF). The angular distortion increases upon the substitution of Lu3+ with Sc3+, as shown through crystal structure analysis of as-prepared LSBO:Ce, obtained via the Rietveld refinement method. LSBO:Ce shows obvious red shifts in its PLE and PL spectra with increasing Sc concentration because of an increased Stokes shift originating from an increased crystal field splitting effect and angular distortion. Owing to reduced symmetry, increased strain and the nephelauxetic effect will reduce energy transfer from charge carriers to Ce3+ as luminescent centers. Due to greater loss during the energy conversion process, the PL intensity and decay time decrease with an increase in the Sc3+/Lu3+ ratio. Based on high-throughput rapid and efficient screening, the optimized LSBO:Ce (x = 0.2) material was selected to fabricate a scintillation screen with polymethyl methacrylate (PMMA) in order to study its scintillation properties. As the powder concentration increases from 0.5 to 10 wt%, the transmittance of the scintillation screen drops from 86 to 73.5%. It is of note that the integrated XEL intensity of the LSBO:Ce@PMMA scintillation screen is 1.36 times higher than that of a BGO single crystal. The spatial resolution of the scintillation screen can reach as high as 300 μm thanks to the intense XEL intensity and 80% transmittance in the visible light range. This study is of great significance for the potential application of LSBO:Ce in the fields of X-ray detection and imaging. [ABSTRACT FROM AUTHOR]

Published
2021
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