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1. GPT-assisted learning of structure-property relationships by graph neural networks: Application to rare-earth doped phosphors

Author

Zhang, Xiang, Zhou, Zichun, Ming, Chen, and Sun, Yi-Yang

Subjects
Condensed Matter - Materials Science
Abstract

Applications of machine learning techniques in materials science are often based on two key ingredients, a set of empirical descriptors and a database of a particular material property of interest. The advent of graph neural networks, such as the Crystal Graph Convolutional Neural Network (CGCNN), demonstrates the possibility of directly mapping the relationship between material structures and properties without employing empirical descriptors. Another exciting recent advancement is in large language models such as OpenAI's GPT-4, which demonstrates competency at reading comprehension tasks and holds great promise for accelerating the acquisition of databases on material properties. Here, we utilize the combination of GPT-4 and CGCNN to develop rare-earth doped phosphors for solid-state lighting. GPT-4 is applied to data-mine chemical formulas and emission wavelengths of 264 Eu(II)-doped phosphors from 274 papers. A CGCNN model is trained on the acquired dataset, achieving a test $R^2$ of 0.77. The model is then used to screen over 40,000 inorganic materials to make predictions on the emission wavelengths. We also demonstrate the possibility of leveraging transfer learning to fine-tune a bandgap-predicting CGCNN model towards the prediction of phosphor emission wavelengths. The workflow requires minimal human supervision, little domain knowledge about phosphors, and is generalizable to other material properties., Comment: 12 pages, 4 figures; fixed Fig. 4b's color bar, and a typo in Table 1

Published
2023
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2. Giant excitonic effects in bulk vacancy-ordered double perovskites

Author

Zhang, Fan, Gao, Weiwei, Cruz, Greis J., Sun, Yi-yang, Zhang, Peihong, and Zhao, Jijun

Subjects
Physics - Computational Physics, Condensed Matter - Materials Science
Abstract

Using first-principles GW plus Bethe-Salpeter equation calculations, we identify anomalously strong excitonic effects in several vacancy-ordered double perovskites Cs2MX6 (M = Ti, Zr; X = I, Br). Giant exciton binding energies about 1 eV are found in these moderate-gap, inorganic bulk semiconductors, pushing the limit of our understanding of electron-hole (e-h) interaction and exciton formation in solids. Not only are the exciton binding energies extremely large compared with any other moderate-gap bulk semiconductors, but they are also larger than typical 2D semiconductors with comparable quasiparticle gaps. Our calculated lowest bright exciton energy agrees well with the experimental optical band gap. The low-energy excitons closely resemble the Frenkel excitons in molecular crystals, as they are highly localized in a single [MX6]2- octahedron and extended in the reciprocal space. The weak dielectric screening effects and the nearly flat frontier electronic bands, which are derived from the weakly bonded [MX6]2- units, together explain the significant excitonic effects. Spin-orbit coupling effects play a crucial role in red-shifting the lowest bright exciton by mixing up spin-singlet and spin-triplet excitons, while exciton-phonon coupling effects have minor impacts on the strong exciton binding energies.

Published
2022
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4. Chalcogenide perovskite BaZrS3 thin-film electronic and optoelectronic devices by low temperature processing

Author

Yu, Zhonghai, Wei, Xiucheng, Zheng, Yixiong, Hui, Haolei, Bian, Mengying, Dhole, Samyak, Seo, Jung-Hun, Sun, Yi-Yang, Jia, Quanxi, Zhang, Shengbai, Yang, Sen, and Zeng, Hao

Subjects
Condensed Matter - Materials Science
Abstract

Owing to its superior visible light absorption and high chemical stability, chalcogenide perovskite barium zirconium sulfide has attracted significant attention in the past few years as a potential alternative to hybrid halide perovskites for optoelectronics. However, the high processing temperatures of BaZrS3 thin films at above 1000 C severely limits their potential for device applications. Herein, we report the synthesis of BaZrS3 thin films at temperatures as low as 500 C, by changing the chemical reaction pathway. The single phase BaZrS3 thin film was confirmed by X-ray diffraction and Raman spectroscopies. Atomic force microscopy and scanning electron microscopy show that crystalline size and surface roughness were consistently reduced with decreasing annealing temperature. The lower temperatures further eliminate sulfur vacancies and carbon contaminations associated with high temperature processing. The ability to synthesize chalcogenide perovskite thin films at lower temperatures removes a major hurdle for their device fabrication. The photodetectors demonstrate fast response and an on/off ratio of 80. The fabricated field effect transistors show an ambipolar behavior with electron and hole mobilities of 16.8 cm2/Vs and 2.6 cm2/Vs, respectively.

Published
2021
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5. II-VI Organic-Inorganic Hybrid Nanostructures with Greatly Enhanced Optoelectronic Properties, Perfectly Ordered Structures, and Over 15-Year Shelf Stability

Author

Ye, Tang, Kocherga, Margaret, Sun, Yi-Yang, Nesmelov, Andrei, Zhang, Fan, Oh, Wanseok, Huang, Xiao-Ying, Li, Jing, Beasock, Damian, Jones, Daniel S., Schmedake, Thomas A., and Zhang, Yong

Subjects
Condensed Matter - Materials Science
Abstract

Organic-inorganic hybrids may offer material properties not available from their inorganic components. However, they are typically less stable and disordered. Long-term stability study of the hybrid materials, over the anticipated lifespan of a real-world electronic device, is practically nonexistent. Disordering, prevalent in most nanostructure assemblies, is a prominent adversary to quantum coherence. A family of perfectly ordered II-VI based hybrid nanostructures has been shown to possess a number of unusual properties and potential applications. Here, using a prototype structure ZnTe(en)0.5 - a hybrid superlattice, and applying an array of optical, structural, surface, thermal, and electrical characterization techniques in conjunction with density-functional theory calculations, we have performed a comprehensive and correlative study of the crystalline quality, structural degradation, electronic, optical, and transport properties on samples from over 15-years old to the recently synthesized. The findings show that not only do they exhibit an exceptionally high level of crystallinity in both macroscopic and microscopic scale, comparable to high-quality binary semiconductors; and greatly enhanced material properties, compared to those of the inorganic constituents; but also, some of them over 15-years old remain as good in structure and property as freshly made ones. This study reveals (1) what level of structural perfectness is achievable in a complex organic-inorganic hybrid structure or a man-made superlattice, suggesting a non-traditional strategy to make periodically stacked heterostructures with abrupt interfaces; and (2) how the stability of a hybrid material is affected differently by its intrinsic attributes, primarily formation energy, and extrinsic factors, such as surface and defects.

Published
2020

6. Ti-alloying of BaZrS3 chalcogenide perovskite for photovoltaics

Author

Wei, Xiucheng, Hui, Haolei, Perera, Samanthe, Sheng, Aaron, Watson, David F., Sun, Yi-Yang, Jia, Quanxi, Zhang, Shengbai, and Zeng, Hao

Subjects
Condensed Matter - Materials Science
Abstract

BaZrS3, a prototypical chalcogenide perovskite, has been shown to possess a direct band gap, an exceptionally strong near band edge light absorption, and good carrier transport. Coupled with its great stability, non-toxicity with earth abundant elements, it is thus a promising candidate for thin film solar cells. However, its reported band gap in the range of 1.7-1.8 eV is larger than the optimal value required to reach the Shockley-Queisser limit of a single junction solar cell. Here we report the synthesis of Ba(Zr1-xTix)S3 perovskite compounds with a reduced band gap. It is found that Ti alloying is extremely effective in band gap reduction of BaZrS3: a mere 4 at% alloying decreases the band gap from 1.78 to 1.51 eV, resulting in a theoretical maximum power conversion efficiency of 32%. Higher Ti-alloying concentration is found to destabilize the distorted chalcogenide perovskite phase.

Published
2020
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9. Development and Effectiveness of a Rapid Cycle Deliberate Practice Neonatal Resuscitation Simulation Program: A Quasi-Experimental Study

Author

Sun-Yi Yang and Yun-Hee Oh

Subjects
rapid cycle deliberate practice, high-fidelity simulation training, students, nursing, intensive care units, neonatal, Medicine
Abstract

The Rapid Cycle Deliberate Practice (RCDP) simulation during neonatal resuscitation program (NRP) training provides in-event feedback for each simulation step, repeats the simulation from the beginning, and undergoes a continuous improvement process. It also offers after-event debriefing that involves follow-up discussion and reflection after completing simulations. These two methods differ in the timing and frequency of feedback application, and there may be differences in the effectiveness of neonatal resuscitation training. A quasi-experimental simulation study with a pre- and post-test design was used; the experimental group received RCDP simulation NRP training, based on the self-determination theory, while the control group received an after-event debriefing, following the NRP scenario. The experimental group displayed significantly improved clinical decision-making skills compared with the control group. When responding to emergencies involving high-risk newborns, we found that RCDP simulation during NRP training and better preparation for neonatal resuscitation among nursing students improved outcomes for newborns.

Published
2024
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10. Giant pyroelectricity in nanomembranes

Author

Jiang, Jie, Zhang, Lifu, Ming, Chen, Zhou, Hua, Bose, Pritom, Guo, Yuwei, Hu, Yang, Wang, Baiwei, Chen, Zhizhong, Jia, Ru, Pendse, Saloni, Xiang, Yu, Xia, Yaobiao, Lu, Zonghuan, Wen, Xixing, Cai, Yao, Sun, Chengliang, Wang, Gwo-Ching, Lu, Toh-Ming, Gall, Daniel, Sun, Yi-Yang, Koratkar, Nikhil, Fohtung, Edwin, Shi, Yunfeng, and Shi, Jian

Published
2022
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13. Improving Delphi Process in Acupuncture Decision Making: Overall Descriptions and Quality Assessment of Delphi Reports.

Author

Sun, Yi-yang, Wang, Peng-fei, Yang, Gui-rong, Du, Dong-qing, Li, Chun-jing, Mu, Zi-jun, Ma, Yu-xia, and Zhang, Na

Subjects
CLINICAL decision support systems, DELPHI method, DECISION making, LIKERT scale, PATIENT preferences
Abstract

Background: Clinical acupuncture decisions are highly operator-dependent and require physician-patient interactions. The Delphi method allows subjective factors such as expert experience and preference of patients to be taken into account in clinical decision making, which is particularly applicable to acupuncture. Currently, the Delphi method is widely used to support clinical decisions in acupuncture. Therefore, it is necessary to provide high-quality and complete descriptions of the Delphi process when making clinical decisions. This study aims to evaluate the quality of the Delphi process in acupuncture, facilitate its standardization and rigor for further clinical decision making in acupuncture. Methods: Articles sourced from six databases were searched systematically to assess the quality of the Delphi consensus process based on the standards for conducting and reporting Delphi studies (CREDES). Descriptive statistics and analysis were presented according to the percentage of each item. Five-score Likert scale was used to evaluate the reporting quality of four domains as well as each item in CREDES by two independent researchers, combined with ICC-value to assess the consistency. Results: A total of 37 qualified articles were included according to eligibility criteria. As for the low reporting rate, the item "External validation" was reported as the lowest positive rate at 32.43% and the item "Prevention of bias" was 48.65%. The item "Adequacy of conclusions", "Definition and attainment of consensus", and "Discussion of limitations" were reported at a positive ratio of 62.16%, 64.86%, and 67.57% individually. The average scores of the four domains based on CREDES from highest to lowest were, respectively, as follows: planning and design (68.75%), reporting (66.07%), rationale for the choice of the Delphi technique (65.54%), study conduct (45.10%). Conclusion: The reporting quality of the Delphi consensus process in acupuncture is acceptable currently, but the reporting rate on some items is still low. Further standardization, including either clearer checklists or study reports, should be developed and strengthened to guide clinical decisions in acupuncture. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Semi-Dirac Semimetal in Silicene Oxide

Author

Zhong, Chengyong, Chen, Yuanping, Xie, Yuee, Sun, Yi-Yang, and Zhang, Shengbai

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Chemical Physics, Physics - Computational Physics
Abstract

Semi-Dirac semimetal is a material exhibiting linear band dispersion in one direction and quadratic band dispersion in the orthogonal direction and, therefore, hosts massless and massive fermions at the same point in the momentum space. While a number of interesting physical properties have been predicted in semi-Dirac semimetals, it has been rare to realize such materials in condensed matters. Based on the fact that some honeycomb materials are easily oxidized or chemically absorb other atoms, here, we theoretically propose an approach of modifying their band structures by covalent addition of group-VI elements and strain engineering. We predict a silicene oxide with chemical formula of Si2O to be a candidate of semi-Dirac semimetal. Our approach is backed by the analysis and understanding of the effect of p-orbital frustration on the band structure of the graphene-like materials.

Published
2016
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17. SCADE Model Checking Based on Program Transformation

Author

RAN Dan, CHEN Zhe, SUN Yi, YANG Zhi-bin

Subjects
model checking, safe state machine, lexical analysis, syntax analysis, abstract syntax tree, jkind, Computer software, QA76.75-76.765, Technology (General), T1-995
Abstract

SCADE synchronization language is a common programming language for embedded system.It is often used to realize real-time embedded automatic control system in the research of equipment in aviation,aerospace,transportation and other safety critical fields.SCADE synchronization language is derived from the Lustre language,which adds more language structure to simplify source code.However,compared with Lustre language,the development of model checking technology of SCADE synchronous language is relatively backward.In this paper,we introduce a method and suite for model checking of SCADE programs.The core idea of the method is based on program transformation,that is,the SCADE program is finally transformed into equivalent Lustre program after lexical analysis,syntax analysis,abstract syntax tree generation,simplification,and then use JKind to complete the model checking.Moreover,we prove the correctness of the suite's model checking result by theoretical deduction and a large number of experiments.Experimental results show that the SCADE and Lustre programs with the same function produce the same model checking results,but the efficiency of SCADE is lower.

Published
2021
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20. Dynamical approach to the atomic and electronic structures of the ductile semiconductor Ag2S.

Author

Wuliji, Hexige, Ma, Yupeng, Chen, Heyang, Wei, Tian-Ran, Zhao, Kunpeng, Sun, Yi-Yang, and Shi, Xun

Subjects
ATOMIC structure, SILVER sulfide, SEMICONDUCTORS, MOLECULAR dynamics, DENSITY functional theory
Abstract

Silver sulfide in monoclinic phase (α-Ag2S) has attracted significant attention owing to its metal-like ductility and promising thermoelectric properties near room temperature. However, first-principles studies on this material by density functional theory calculations have been challenging as both the symmetry and atomic structure of α-Ag2S predicted from such calculations are inconsistent with experimental findings. Here, we propose that a dynamical approach is imperative for correctly describing the structure of α-Ag2S. The approach is based on a combination of ab initio molecular dynamics simulation and deliberately chosen density functional considering both proper treatment of the van der Waals interaction and on-site Coulomb interaction. The obtained lattice parameters and atomic site occupations of α-Ag2S are in good agreement with experimental data. A stable phonon spectrum at room temperature can be obtained from this structure, which also yields a bandgap in accord with experimental measurements. The dynamical approach thus paves the way for studying this important ductile semiconductor in not only thermoelectric but also optoelectronic applications. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Chalcogenide Perovskites- an Emerging Class of Ionic Semiconductors

Author

Pereraa, Samanthe, Huia, Haolei, Zhao, Chuan, Xue, Hongtao, Sun, Fan, Deng, Chenhua, Gross, Nelson, Milleville, Chris, Xu, Xiaohong, Watson, David F., Weinstein, Bernard, Sun, Yi-Yang, Zhang, Shengbai, and Zeng, Hao

Subjects
Condensed Matter - Materials Science
Abstract

We report the synthesis and characterization of a novel class of ionic semiconductor materials- inorganic chalcogenide perovskites. Several different compounds including BaZrS3, CaZrS3, SrTiS3 and SrZrS3 were synthesized by high temperature sulfurization of their oxide counterparts. Their crystal structures were identified by XRD and composition by EDX. UV-vis and photoluminescence measurements confirmed that they are direct gap semiconductors with band gap values consistent with theoretical predictions. By adopting an anion alloying approach, we demonstrate widely tunable band gap from 1.73 eV to 2.87 eV. These strongly ionic semiconductors provide a new avenue for engineering the semiconducting properties for applications such as energy harvesting, solid state lighting and sensing.

Published
2016
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22. Effectiveness of neonatal emergency nursing education through simulation training: Flipped learning based on Tanner’s Clinical Judgement Model

Author

Sun‐Yi Yang

Subjects
distance, education, emergency nursing, midwives, nurses, nursing, Nursing, RT1-120
Abstract

Abstract Aim To examine the effects of neonatal simulation‐based practice by applying flipped learning based on Tanner's clinical judgement model to pre‐simulation briefing for nursing students. Design A quasi‐experimental non‐equivalent control group pre‐ and postintervention design. Methods Using Tanner's clinical judgment model, flipped learning was developed and applied to the pre‐simulation briefing curriculum prior to the neonatal nursing simulation exercise. Flipped learning was compared with a general pre‐simulation briefing with 65 South Korean students. From September 7, 2019, to October 25, 2019. Results The experimental group's critical thinking, self‐confidence and clinical judgement ability increased, but knowledge, satisfaction and anxiety did not differ from that of the control group. Pre‐simulation briefing design focuses on improving students’ environmental comfort and reducing anxiety rather than developing complex reasoning skills and clinical judgement abilities. Applying flipped learning based on Tanner's clinical judgement model to pre‐simulation briefing increased critical thinking, self‐confidence and clinical judgement ability.

Published
2021
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24. A hierarchical approach to designing a Na-rich phosphide solid-state electrolyte for Na-ion batteries.

Author

Lin, Aming, Shi, Jing, Wei, Su-Huai, and Sun, Yi-Yang

Abstract

Solid-state electrolytes (SSEs) have brought significant advancements to secondary battery technology, but phosphides remain relatively unexplored compared to the extensively studied oxides, sulfides, and halides. In this study, we introduce a hierarchical approach for designing a Na-rich phosphide SSE. Starting with Na3P, one of the most Na-rich materials, we apply the concept of dilute element compounds, incorporating a small amount of a dopant element to preserve its Na-richness. This leads us to identify Na7TaP4 as a promising candidate. Subsequently, through phase engineering utilizing the inorganic crystal structure database, we pinpoint a superior phase for Na7TaP4 that exhibits significantly enhanced Na diffusion kinetics. Lastly, employing defect engineering, we determine that partial substitution of Ta with Zr or Hf can stabilize Na7TaP4 in the desired phase over the experimentally synthesized phase. This hierarchical approach not only reduces the Na diffusion activation energy of the initial material Na3P from 0.67 to 0.25 eV but also increases its band gap from 1.0 to 2.4 eV. These advancements show considerable promise for SSE applications. Furthermore, this design strategy is expected to find broad applicability in the development of SSEs for various types of secondary batteries. [ABSTRACT FROM AUTHOR]

Published
2024
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29. Zero‐Dimensional Organic–Inorganic Hybrid Zinc Halides for Multiple Applications in Anti‐Counterfeiting, X‐Ray Imaging and White LEDs

Author

Wang, Yunluo, primary, Zhou, Tianrui, additional, Chen, Jie, additional, Qin, Haoming, additional, Wu, Jianghua, additional, Zhang, Qing, additional, Zheng, Jiaqian, additional, Li, Xiang, additional, Sun, Yi‐Yang, additional, He, Yihui, additional, Ma, Xueqing, additional, Ye, Tingting, additional, Liu, Ruifeng, additional, Gao, Zesen, additional, Hou, Jingshan, additional, Wang, Lianjun, additional, Chen, Haijie, additional, and Jiang, Wan, additional

Published
2023
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30. Effects of Self-efficacy and Self-control on Internet Addiction in Middle School Students: A Social Cognitive Theory-Driven Focus on the Mediating Influence of Social Support

Author

Sun-Yi Yang

Subjects
internet, addictive behavior, social support, self efficacy, self-control, Medicine
Abstract

Purpose The aim of this study was to investigate internet addiction among middle school students and to examine the mediating effects of social support in the relationships of self-efficacy and self-control with internet addiction. Methods The participants in the study were 119 middle school students in J city. The measurements included a self-efficacy scale, a self-control scale, a social support scale, and the Internet Addiction Scale for Youth. Data were analyzed using the independent t-test or Mann-Whitney U test, one-way analysis of variance, the Scheffé test, Pearson correlation coefficients, and multiple-regression using SPSS version 22.0. Mediation effects were analyzed by the Sobel test and Baron and Kenny's hierarchical analysis technique. Results Significant correlations were found among self-efficacy, self-control, and internet addiction. Social support had partial mediating effects in the relationship between self-efficacy and internet addiction, as well as in the relationship between self-control and internet addition. Conclusion In order to prevent internet addiction, the promotion of interactions among peers, which is a component of social support, is particularly important. It is also necessary to promote face-to-face activities that can strengthen relationships. The findings suggest that intensifying social support may help reduce the level of internet addiction in middle school students.

Published
2020
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32. Simulation Training Needs of Nurses for Nursing High-Risk Premature Infants: A Cross-Sectional Study

Author

Sun-Yi Yang

Subjects
nurses, infant, premature baby, intensive care, neonatal, clinical practice, Medicine
Abstract

Opportunities fomr clinical training in the newborn nursery and neonatal intensive care units (NICU) are becoming insufficient and limited to observation-oriented training. Premature infants admitted to the NICU require specialized and highly sophisticated care. Therefore, this descriptive cross-sectional study aimed to understand nurses’ educational needs for establishing a high-risk premature infant nursing simulation training program. It used a descriptive cross-sectional design. We conducted a survey involving 99 newborn nursery and NICU nurses; data were analyzed using descriptive statistics, a paired t-test, an Importance-Performance Analysis (IPA), a Borich needs analysis, and the locus for focus to confirm educational priorities. The scores indicating the importance of nursing high-risk premature infants were higher than those of performance. Results indicated that the highest educational need was in the “treatment and procedure” domain. After deriving the priority of educational needs using the Borich needs analysis and the locus for focus, “maintenance of various tubes” showed the highest priority. By identifying the training priorities for high-risk premature infants nursing using various analytical frameworks, an extended reality simulation program met nurses’ high-risk premature infant nursing educational needs. Training for high-risk premature infants treatment and procedures—maintaining various tubes—is highly demanded by nurses and should be prioritized.

Published
2022
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35. Zero‐Dimensional Organic–Inorganic Hybrid Zinc Halides for Multiple Applications in Anti‐Counterfeiting, X‐Ray Imaging and White LEDs.

Author

Wang, Yunluo, Zhou, Tianrui, Chen, Jie, Qin, Haoming, Wu, Jianghua, Zhang, Qing, Zheng, Jiaqian, Li, Xiang, Sun, Yi‐Yang, He, Yihui, Ma, Xueqing, Ye, Tingting, Liu, Ruifeng, Gao, Zesen, Hou, Jingshan, Wang, Lianjun, Chen, Haijie, and Jiang, Wan

Subjects
ZINC halides, X-ray imaging, LIGHT emitting diodes, ULTRAVIOLET radiation, IRRADIATION, AMINO group, SCINTILLATORS, X-rays
Abstract

Zinc halides have been less explored even though they are a promising lead‐free family with the merits of environmental friendliness and low cost. Here, the organic–inorganic hybrid zinc halides are screened with aromatic molecules containing amino groups (MXDA: m‐Xylylenediamine, ABI: 2‐Aminobenzimidazole, pipda: 2‐piperidylmethylamine, p‐MPEA: p‐Methylphenethylamine), and six new compounds are discovered: (MXDA)ZnCl4 (1), (ABI)2ZnCl4 (2), (pipda)2H2OZnCl2 (3), [(pipda)4Zn2Br4]·H2O (4), (p‐MPEA)2ZnCl4 (5), and (p‐MPEA)2ZnBr4 (6). The discovered compounds exhibit diverse efficient light emissions (blue, green, yellow, and ultraviolet) under ultraviolet light irradiation. By doping Sb and Mn at the Zn site, (MXDA)ZnCl4 exhibits different colors of light under excitation light of different wavelengths, so it is successfully used for anti‐counterfeiting. (MXDA)Zn0.91Mn0.09Cl4 is also found to be an efficient X‐ray scintillator for X‐ray imaging. Among the as‐explored new phases, a maximum photoluminescent quantum yield of 82.60% is realized, enabling the utilization for white light‐emitting diodes. The results suggest that the zinc halides are a new lead‐free family with superior optoelectronic properties, which can be used for multiple applications. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Effects of Team-based Problem-based Learning Combined with Smart Education: A Focus on High-risk Newborn Care

Author

Sun-Yi Yang

Subjects
students, nursing, computer-assisted instruction, problem-based learning, Medicine
Abstract

Purpose This study was conducted to examine the effects of team-based problem-based learning combined with smart education among nursing students. Methods A quasi-experimental non-equivalent control group, pre-posttest design was used. The experimental group (n=36) received problem-based learning combined with smart education and lectures 7 times over the course of 7 weeks (100 minutes weekly). Control group (n=34) only received instructor-centered lectures 7 times over the course of 7 weeks (100 minutes weekly). Data were analyzed using the x2 test, the Fisher exact test, and the independent t-test with SPSS for Windows version 21.0. Results After the intervention, the experimental group reported increased learning motivation (t=2.70, p=.009), problem-solving ability (t=2.25, p=.028), academic self-efficacy (t=4.76, p

Published
2019
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40. Ohmic contacts in MXene/MoSi2N4 heterojunctions

Author

Zhang, Xiang, primary, Zheng, Jun-Yue, additional, Xiang, Yu-Cui, additional, Wu, Di, additional, Fan, Jing, additional, Sun, Yi-Yang, additional, Chen, Li-Juan, additional, Gan, Li-Yong, additional, and Zhou, Xiaoyuan, additional

Published
2023
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47. Decomposed defect formation energy for analysis of doping process: The case of n-type and p-type doping of β-FeSi2.

Author

Chai, Jun, Ming, Chen, and Sun, Yi-Yang

Subjects
DOPING in sports, THERMOELECTRIC materials, N-type semiconductors, DOPING agents (Chemistry), THERMODYNAMICS
Abstract

Defect formation energy governs the thermodynamics of a specific dopant within the host material. Here, we introduce an approach to decomposing the defect formation energy into intuitive components, each representing a distinct physical step in the process of defect formation. Through this approach, we illustrate that adhering solely to conventional criteria, such as ionic radius, may overlook potential dopants. Taking β-FeSi2, a promising high-temperature thermoelectric material, as an example, we demonstrate that non-intuitive chemical interactions can play a more significant role in lowering the defect formation energy. As a result, Ir on Fe site is found to exhibit unexpected low defect formation energy among the 26 candidate dopants and has been employed in experiment to enhance the thermoelectric figure of merit of n-type β-FeSi2. The understanding gained from this work could be of general interest for addressing the doping limit issue for other potential thermoelectric materials. [ABSTRACT FROM AUTHOR]

Published
2023
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49. Effects of Anger and Entrapment on Psychological Health of High School Boys: Focused on the Mediating Effects of Social Support

Author

Sun Yi Yang and Yun Hee Oh

Subjects
Adolescent, Anger, Constriction, Psychology, Social support, Medicine
Abstract

Purpose: The aim of this study was to identify the status of psychological health among boys in high school and to examine the mediating effects of social support on the relationship between anger and entrapment on psychological health. Methods: The participants in this study were 193 high school boys from Jeju. Measurements included state-trait anger expression inventory, entrapment scale, student social support scale, and questionnaires to assess mental and physical health. Data were analyzed using independent t-test, one-way ANOVA, Scheffé test, Pearson correlation coefficient, simple and multiple regression techniques with the SPSS 21.0. Mediation analysis was performed with the Baron and Kenny’s method, and Sobel test. Results: Mean scores for anger experience, entrapment, social support, and psychological health were 29.81±7.34, 34.09±16.33, 45.75±7.02, 22.51±9.91, respectively. There was a significant correlation between anger experience and psychological health. Entrapment was significantly correlated with psychological health. Social support showed partial mediating effects in the relationship between anger experience and psychological health (Sobel test: Z=54.18. p

Published
2017
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