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Your search keyword '"Tse, Kinfai"' showing total 27 results
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27 results on '"Tse, Kinfai"'

1. Kinetic Processes and surfactant design of Group I elements on CZTS (1-1-2-) surface

Author

Bao, Kejie, Liu, Haolin, Tse, Kinfai, Yang, Chunlei, Zhong, Guohua, and Zhu, Junyi

Subjects
Condensed Matter - Materials Science
Abstract

Cu2ZnSnS4 (CZTS) is a promising thin-film solar-cell material consisted of earth abundant and nontoxic elements. Yet, there exists a fundamental bottle neck that hinders the performance of the device due to complexed intrinsic defects properties and detrimental secondary phases. Recently, it was proven experimentally that Na and K in co-evaporation growth of CZTS can enlarge the grain size and suppress formation of ZnS secondary phase near surface, but the reasons are not well understood. We used first principle calculations to investigate the kinetic processes on CZTS (1-1-2-) surface involving Group I elements, including Na, K, and Cs, to demonstrate their surfactant effects. Both the structure of the reconstructed surfaces involving Group I elements and various diffusion paths of a Zn ad-atom in these reconstructed surfaces were explored. The advantages and concerns of the surfactant effects of Na, K, Cs, were systematically compared and discussed. Although Group I elements protect Cu sites on the subsurface layer, a disordered metastable configuration with a diffusion barrier of about 400meV was found. Therefore, a precise control of growth condition is essential to avoid the metastable phase. In addition, our studies provide a systematical design principle for surfactant effects during the growth.

Published
2020

2. Towards understanding the special stability of ${\text{SrCo}\text{O}_{2.5}}$ and ${\text{HSrCo}\text{O}_{2.5}}$

Author

Tsang, Sze-Chun, Zhang, Jingzhao, Tse, Kinfai, and Zhu, Junyi

Subjects
Condensed Matter - Materials Science
Abstract

Reversible hydrogen incorporation was recently attested [N. Lu, $\textit{et al.}$, Nature $\textbf{546}$, 124 (2017)] in ${\text{SrCo}\text{O}_{2.5}}$, the brownmillerite phase (BM) of strontium cobalt oxide (SCO), opening new avenues in catalysis and energy applications. However, existing theoretical studies of BM-SCO are insufficient, and that of ${\text{HSrCo}\text{O}_{2.5}}$, the newly-reported hydrogenated SCO (H-SCO), is especially scarce. In this work, we demonstrate how the electron-counting model (ECM) can be used in understanding the phases, particularly in explaining the stability of the oxygen-vacancy channels (OVCs), and in examining the Co valance problem. Using density-functional theoretical (DFT) methods, we analyze the crystalline, electronic, and magnetic structures of BM- and H-SCO. Based on our structure search, we discovered stable phases with large bandgaps (> 1 eV) for both BM-SCO and H-SCO, agreeing better with experiments on the electronic structures. Our calculations also indicate limited charge transfer from H to O that may explain the special stability of the H-SCO phase and the reversibility of H incorporation observed in experiments. In contrary to the initial study, our calculation also suggests intrinsic antiferromagnetism (AFM) of H-SCO, showing how the measured ferromagnetism (FM) has possible roots in hole doping., Comment: 9 pages, 10 figures, 4 tables + supplemental material; post-peer review version with amendments and additional contents

Published
2018
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3. Hydrogen Surfactant Assisted Coherent Growth of GaN on ZnO Substrate

Author

Zhang, Jingzhao, Zhang, Yiou, Tse, Kinfai, and Zhu, Junyi

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

Heterostructures of wurtzite based devices have attracted great research interests since the tremendous success of GaN in light emitting diodes (LED) industry. Among the possible heterostructure material candidates, high quality GaN thin films on inexpensive and lattice matched ZnO substrate are both commercially and technologically desirable. However, the energy of ZnO polar surfaces is much lower than that of GaN polar surfaces. Therefore, the intrinsic wetting condition forbids such heterostructures. As a result, poor crystal quality and 3D growth mode were obtained. To dramatically change the growth mode of the heterostructure, we propose to use hydrogen as a surfactant, confirmed by our first principles calculations. Stable H involved surface configurations and interfaces are investigated, with the help of newly developed algorithms. By applying the experimental Gibbs free energy of H$_2$, we also predict the temperature and chemical potential of H, which is critical in experimental realizations of our strategy. This novel approach will for the first time make the growth of high quality GaN thin films on ZnO substrates possible. We believe that our new strategy may reduce the manufactory cost and improve the crystal quality and the efficiency of GaN based devices., Comment: 18 pages, 6 figures

Published
2017
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4. Defect Properties of Na and K in Cu2ZnSnS4 from Hybrid Functional Calculation

Author

Tse, Kinfai, Wong, Manhoi, Zhang, Yiou, Zhang, Jingzhao, Scarpulla, Michael, and Zhu, Junyi

Subjects
Condensed Matter - Materials Science
Abstract

In-growth or post-deposition treatment of $Cu_{2}ZnSnS_{4}$ (CZTS) absorber layer had led to improved photovoltaic efficiency, however, the underlying physical mechanism of such improvements are less studied. In this study, the thermodynamics of Na and K related defects in CZTS are investigated from first principle approach using hybrid functional, with chemical potential of Na and K established from various phases of their polysulphides. Both Na and K predominantly substitute on Cu sites similar to their behavior in $Cu(In,Ga)Se_{2}$, in contrast to previous results using the generalized gradient approximation (GGA). All substitutional and interstitial defects are shown to be either shallow levels or highly energetically unfavorable. Defect complexing between Na and abundant intrinsic defects did not show possibility of significant incorporation enhancement or introducing deep n-type levels. The possible benefit of Na incorporation on enhancing photovoltaic efficiency is discussed. The negligible defect solubility of K in CZTS also suggests possible surfactant candidate., Comment: 16 pages, 4 figures

Published
2017
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5. Step Stone Effect: A sp anti-bonding Mediated Long-Range Ferromagnetism in Cr-doped Carrier-Free Bi2Te3

Author

Chan, Chunkai, Zhang, Xiaodong, Zhang, Yiou, Tse, Kinfai, Deng, Bei, Zhang, Jingzhao, and Zhu, Junyi

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

Despite the recent success in the realization of the quantum anomalous Hall effect, the underlying physical mechanism of the long range Ferromagnetism is still unclear. Based on our density functional theory calculations, we discovered an intriguing long-range ferromagnetic order in Cr-doped, carrier-free Bi2Te3, with the separation between dopants more than 8 {\AA}. We found that this magnetic coupling is facilitated by an anti-bonding state originated from the lone pair of a Te 5p state and a Bi 6s state, despite this anti-bonding state lies below the valence band maximum. Such a state serves as a hidden step stone merged in the electron sea and mediates the long-range magnetic order. An effective electron hopping model is proposed to explain this mechanism. This novel mechanism sheds light on the understanding of long-range ferromagnetism in insulators and may lead to the realization of the long-range magnetic order in dilute magnetic semiconductors.

Published
2017

6. Surface energy calculations from Zinc blende (111)/(-1-1-1) to Wurtzite (0001)/(000-1):a study of ZnO and GaN

Author

Zhang, Jingzhao, Zhang, Yiou, Tse, Kinfai, Deng, Bei, Xu, Hu, and Zhu, Junyi

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

The accurate absolute surface energies of (0001)/(000-1) surfaces of wurtzite structures are crucial in determining the thin film growth mode of important energy materials. However, the surface energies still remain to be solved due to the intrinsic difficulty of calculating dangling bond energy of asymmetrically bonded surface atoms. In this study, we used a pseudo-hydrogen passivation method to estimate the dangling bond energy and calculate the polar surfaces of ZnO and GaN. The calculations were based on the pseudo chemical potentials obtained from a set of tetrahedral clusters or simple pseudo-molecules, using density functional theory approaches. And the surface energies of (0001)/(000-1) surfaces of wurtzite ZnO and GaN we obtained showed relatively high self-consistencies. A wedge structure calculation with a new bottom surface passivation scheme of group I and group VII elements was also proposed and performed to show converged absolute surface energy of wurtzite ZnO polar surfaces, and the result were also compared with the above method. These calculations and comparisons may provide important insights to crystal growths of the above materials, thereby leading to significant performance enhancements of semiconductor devices., Comment: 14 pages,5 figures

Published
2015
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7. Induced effects by the substitution of Zn in Cu2ZnSnX4 (X = S and Se)

Author

Zhong, Guohua, Tse, Kinfai, Zhang, Yiou, Li, Xiaoguang, Huang, Li, Yang, Chunlei, Zhu, Junyi, Zeng, Zhi, Zhang, Zhenyu, and Xiao, Xudong

Subjects
Condensed Matter - Materials Science
Abstract

Based on the density functional theory with hybrid functional approach, we have studied the structural and thermodynamic stabilities of Cu2MSnX4 (M = Zn, Mg, and Ca; X = S and Se) alloy, and have further investigated the electronic and optical properties of stable Cu2MgSnS4 and Cu2MgSnSe4 phases. Thermal stability analysis indicates that Cu2MgSnS4 and Cu2MgSnSe4 are thermodynamically stable, while Cu2CaSnS4 and Cu2CaSnSe4 are unstable. The ground state configuration of the compound changes from kesterite into stannite structure when Zn atoms are substitued by larger Mg or Ca atoms. An energy separation between stannite and kesterite phase similar to that of CZTS is observed. Calculated electronic structures and optical properties suggest that Cu2MgSnS4 and Cu2MgSnSe4 can be efficient photovoltaic materials., Comment: 5 figures

Published
2015
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8. A novel strategy to control defects and secondary phases of CZTS by surfactant Potassium

Author

Zhang, Yiou, Tse, Kinfai, Xiao, Xudong, and Zhu, Junyi

Subjects
Condensed Matter - Materials Science
Abstract

Cu2ZnSnS4 (CZTS) is a promising photovoltaic absorber material with earth abundant and nontoxic elements. However, the detrimental native defects and secondary phases of CSTS will largely reduce the energy conversion efficiencies. To understand the origin of these problems during the growth of CZTS, we investigated the kinetic processes on CZTS (-1-1-2) surface, using first principles calculations. A surface Zn atom was found to occupy the subsurface Cu site easily due to a low reaction barrier, which may lead to a high ZnCu concentration and a secondary phase of ZnS. These n-type defects may create deep electron traps near the interface and become detrimental to device performance. To reduce the population of ZnCu and the secondary phase, we propose to use K as a surfactant to alter surface kinetic processes. Improvements on crystal quality and device performance based on this surfactant are consistent with early experimental observations.

Published
2015
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9. Pseudo-Hydrogen Passivation_A Novel Way to Calculate Absolute Surface Energy of Zinc Blende (111) Surface

Author

Zhang, Yiou, Zhang, Jingzhao, Tse, Kinfai, Chan, Chunkai, Deng, Bei, and Zhu, Junyi

Subjects
Condensed Matter - Materials Science
Abstract

Determining accurate absolute surface energies for polar surfaces of semiconductors has been a great challenge in decades. Here, we propose pseudo-hydrogen passivation to calculate them, using density functional theory approaches. By calculating the energy contribution from pseudo-hydrogen using either a pseudo molecule method or a tetrahedral cluster method, we obtained (111) surfaces energies of Si, GaP, and ZnS with high self-consistency. This method quantitatively confirms that surface energy is determined by the number and the energy of dangling bonds of surface atoms. Our findings may greatly enhance the basic understandings of different surfaces and lead to novel strategies in the crystal growth.

Published
2015
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11. Defect properties of Na and K in Cu2ZnSnS4 from hybrid functional calculation.

Author

Tse, Kinfai, Wong, Manhoi, Zhang, Yiou, Zhang, Jingzhao, Scarpulla, Michael, and Zhu, Junyi

Subjects
*POINT defects, *COPPER alloys, *PHOTOVOLTAIC power systems, *THERMODYNAMICS, *CHEMICAL potential, *ABSORPTION spectra
Abstract

The in-growth or the post-deposition treatment of the Cu 2 ZnSnS 4 (CZTS) absorber layer has led to improved photovoltaic efficiency; however, the underlying physical mechanisms of such improvements are less studied. In this study, the thermodynamics of Na and K related defects in CZTS are investigated by a first principles approach using a hybrid functional, with the chemical potential of Na and K established from various phases of their polysulfides. Both Na and K predominantly substitute on Cu sites similar to their behavior in Cu(In,Ga) Se 2 , in contrast to previous results using the generalized gradient approximation. All substitutional and interstitial defects are shown to be either shallow levels or highly energetically unfavorable. Defect complexing between Na and abundant intrinsic defects did not show the possibility of significant incorporation enhancement or introducing deep n-type levels. The possible benefit of Na incorporation on enhancing photovoltaic efficiency is discussed. The negligible defect solubility of K in CZTS also suggests this to be a possible surfactant. [ABSTRACT FROM AUTHOR]

Published
2018
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27. Induced effects by the substitution of Zn in Cu 2ZnSnX4 (X = S and Se).

Author

Zhong, Guohua, Tse, Kinfai, Zhang, Yiou, Li, Xiaoguang, Huang, Li, Yang, Chunlei, Zhu, Junyi, Zeng, Zhi, Zhang, Zhenyu, and Xiao, Xudong

Subjects
*DENSITY functional theory, *THERMAL stability, *KESTERITE, *CALCIUM, *ATOMS
Abstract

Based on the density functional theory with hybrid functional approach, we have studied the structural and thermodynamic stabilities of Cu 2 M Sn X 4 ( M = Zn, Mg, and Ca; X = S and Se) alloy, and have further investigated the electronic and optical properties of stable Cu 2 MgSnS 4 and Cu 2 MgSnSe 4 phases. Thermal stability analysis indicates that Cu 2 MgSnS 4 and Cu 2 MgSnSe 4 are thermodynamically stable, while Cu 2 CaSnS 4 and Cu 2 CaSnSe 4 are unstable. The ground state configuration of the compound changes from kesterite into stannite structure when Zn atoms are substitued by larger Mg or Ca atoms. An energy separation between stannite and kesterite phase similar to that of CZTS is observed. Calculated electronic structures and optical properties suggest that Cu 2 MgSnS 4 and Cu 2 MgSnSe 4 can be efficient photovoltaic materials. [ABSTRACT FROM AUTHOR]

Published
2016
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