Your search keyword '"Dai, Chen‐Min"' showing total 10 results

1. Achieving ferroelectricity in a centrosymmetric high-performance semiconductor by strain engineering

Author

Wu, Mengqi, Lou, Zhefeng, Dai, Chen-Min, Wang, Tao, Wang, Jiaqi, Zhu, Ziye, Xu, Zhuokai, Sun, Tulai, Li, Wenbin, Zheng, Xiaorui, and Lin, Xiao

Subjects

Condensed Matter - Materials Science

Abstract

Phase engineering by strains in 2D semiconductors is of great importance for a variety of applications. Here, we present a study of strain induced ferroelectric (FE) transition on bismuth oxyselenide (Bi$_2$O$_2$Se) films, a high-performance (HP) semiconductor for next-generation electronics. Bi$_2$O$_2$Se is non-FE at ambient. Upon a loading force $\gtrsim 400$ nN, piezoelectric force responses exhibit butterfly loops on magnitude and 180$^\textrm{o}$ phase switching. By carefully ruling out extrinsic factors, these features are attributed to a transition to FE phase. The transition is further proved by the appearance of a sharp peak on optical second harmonic generation under an uniaxial strain. Fundamentally, solids with paraelectric at ambient and FE under strains are scarce. FE transition is discussed with the help of first-principle calculations and theoretical simulations. The switching of FE polarization acts as a knob for Schottky barrier engineering at contacts and serves as basis for a memristor with a huge switching ratio of 10$^6$. Our work endows a new degree of freedom to a HP electronic/optoelectronic semiconductor and the integration of FE and HP semiconductivity paving the way for multiple exciting functionalities, including HP neuromorphic computation and bulk piezophotovoltaic., Comment: 12 pages, 5 figures

Published

2023

2. One-step hydrothermal synthesis of ternary heterostructure stannic sulfide - bismuth sulfide - bismuth oxychloride (SnS2-Bi2S3-BiOCl) composite loaded on carbon felt for highly efficient piezocatalytic degradation of organic dyes and antibiotics

Author

Li, Wen-Ming, Zhang, Hui, Yao, Jia-Le, Xuan, Xiang-Tao, Wang, Hong-Li, and Dai, Chen-Min

Published

2024

3. Enhanced flexoelectric and piezoelectric pairing of bent polyvinylidene fluoride (PVDF) membrane with two-dimensional (2D) stannic sulfide-bismuth oxychloride (SnS2-BiOCl) heterojunction

Author

Li, Wen-Ming, Zhang, Hui, Dai, Chen-Min, Miao, Jiao-Jiao, Fan, Wei, Song, Qing-Wen, Xia, Liang-Jun, and Xu, Wei-Lin

Published

2024

4. Effective Lifetime of Nonequilibrium Carriers in Perovskite‐Inspired Cu2AgBiI6.

Author

Cai, Zenghua, Dai, Chen‐Min, and Ma, Chunlan

Subjects

*MOLECULAR dynamics, *LEAD halides, *PEROVSKITE, *CHARGE carriers, *AUGERS

Abstract

Perovskite‐inspired materials (PIMs) are potential alternatives to lead halide perovskites, as they not only inherit the benign optoelectronic properties but also diminish the stability and toxicity issues of lead halide perovskites. As a newly discovered PIM, Cu2AgBiI6 has exhibited promising potential for photovoltaic applications. However, studies on its fundamental properties related to photovoltaic performance are scarce, particularly from a theoretical perspective. Herein, the effective lifetime of nonequilibrium carriers (photo‐excited charge carriers) is systematically investigated, a critical property affecting the photovoltaic performance of Cu2AgBiI6, based on the nonadiabatic molecular dynamics simulations. It is found that under the standard solar spectrum illumination, the dominant recombination mechanism affecting the effective lifetime can be band‐to‐band nonradiative decay, band‐to‐band radiative decay, or Shockey–Read–Hall defect‐assisted decay. The specific mechanism is highly dependent on the radiative recombination coefficient and the density of defect recombination levels. The effective lifetime can vary from 0.1 ms to 10 ns. When considering different illumination conditions (generation rates), Auger decay can also become the dominant recombination mechanism, with the effective lifetime varying from 0.1 s to 0.1 ns. These findings can be vital for further experimental researches aimed at enhancing the power conversion efficiency of Cu2AgBiI6‐based solar devices. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effective Lifetime of Nonequilibrium Carriers in Perovskite‐Inspired Cu2AgBiI6.

Author

Cai, Zenghua, Dai, Chen‐Min, and Ma, Chunlan

Subjects

MOLECULAR dynamics, LEAD halides, PEROVSKITE, CHARGE carriers, AUGERS

Abstract

Perovskite‐inspired materials (PIMs) are potential alternatives to lead halide perovskites, as they not only inherit the benign optoelectronic properties but also diminish the stability and toxicity issues of lead halide perovskites. As a newly discovered PIM, Cu2AgBiI6 has exhibited promising potential for photovoltaic applications. However, studies on its fundamental properties related to photovoltaic performance are scarce, particularly from a theoretical perspective. Herein, the effective lifetime of nonequilibrium carriers (photo‐excited charge carriers) is systematically investigated, a critical property affecting the photovoltaic performance of Cu2AgBiI6, based on the nonadiabatic molecular dynamics simulations. It is found that under the standard solar spectrum illumination, the dominant recombination mechanism affecting the effective lifetime can be band‐to‐band nonradiative decay, band‐to‐band radiative decay, or Shockey–Read–Hall defect‐assisted decay. The specific mechanism is highly dependent on the radiative recombination coefficient and the density of defect recombination levels. The effective lifetime can vary from 0.1 ms to 10 ns. When considering different illumination conditions (generation rates), Auger decay can also become the dominant recombination mechanism, with the effective lifetime varying from 0.1 s to 0.1 ns. These findings can be vital for further experimental researches aimed at enhancing the power conversion efficiency of Cu2AgBiI6‐based solar devices. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effective lifetime of non‐equilibrium carriers in perovskite‐inspired Cu2AgBiI6

Author

Cai, Zenghua, primary, Dai, Chen-Min, additional, and Ma, Chunlan, additional

Published

2024

7. Enhanced Flexoelectric and Piezoelectric Pairing of Bent Polyvinylidene Fluoride (Pvdf) Membrane with Two-Dimensional (2d) Stannic Sulfide-Bismuth Oxychloride (Sns2-Biocl) Heterojunction

Author

Li, Wen-Ming, primary, Zhang, Hui, additional, Dai, Chen-Min, additional, Miao, Jiaojiao, additional, Fan, Wei, additional, Song, Qing-Wen, additional, Xia, Liang-Jun, additional, and Xu, Wei-Lin, additional

Published

2024

8. Enhanced Flexoelectric and Piezoelectric Pairing of Bent Pvdf Membrane with 2d Sns2-Biocl Heterojunction

Author

Li, Wen-Ming, primary, Zhang, Hui, additional, Dai, Chen-Min, additional, Miao, Jiaojiao, additional, Zhang, Pengfei, additional, Fan, Wei, additional, Song, Qing-Wen, additional, Chen, Pei, additional, Xia, Liang-Jun, additional, and Xu, Wei-Lin, additional

Published

2024

9. Achieving Ferroelectricity in a Centrosymmetric High‐Performance Semiconductor by Strain Engineering

Author

Wu, Mengqi, primary, Lou, Zhefeng, additional, Dai, Chen‐Min, additional, Wang, Tao, additional, Wang, Jiaqi, additional, Zhu, Ziye, additional, Xu, Zhuokai, additional, Sun, Tulai, additional, Li, Wenbin, additional, Zheng, Xiaorui, additional, and Lin, Xiao, additional

Published

2023

10. Electride transition in liquid aluminum under high pressure and high temperature.

Author

Qin Y, Zhang X, Zhou S, Wang Y, Chen G, Dai CM, Li W, and Li C

Abstract

Despite the conventional view of liquid aluminum (l-Al) as a simple metal governed by the free-electron model, it exhibits unique bonding characteristics. This study uncovers a gradual transition from free electron to electride behavior in l-Al at high pressure and temperature, forming a type of two-component liquid where atomic and electride states coexist. The proportion of electride increases with pressure and temperature until reaching saturation, leading to notable changes in the pair-correlation function and coordination number of l-Al at saturation pressure. Furthermore, this electride transition was found to profoundly impact the thermodynamic and dynamic properties, as evidenced by anomalous crossovers in the isothermal bulk modulus, thermal expansivity, heat capacity, sound speed, and self-diffusion coefficient correlated with varying pressure and temperature. The finding of the anomalous behavior of l-Al described in this work will deepen our understanding of the electronic structure and also lay ground work for interpreting and predicting new physical and chemical behavior under extreme conditions., (© 2025 Author(s). Published under an exclusive license by AIP Publishing.)

Published

2025