Your search keyword '"Kang, Myeongjun"' showing total 9 results

1. Colossal optical anisotropy in wide-bandgap semiconductor CuAlO2

Author

Kang, Baekjune, Shin, Junhee, Kang, Myeongjun, Choi, Uksam, Seo, Uihyeon, Chung, Kunook, Ok, Jong Mok, Jin, Hosub, and Sohn, Changhee

Subjects

Condensed Matter - Materials Science

Abstract

Colossal optical anisotropy in the entire visible spectrum is crucial for advanced photonic applications, enabling precise light manipulation without optical loss across a broad spectral range. Here, we demonstrate that CuAlO2 exhibits colossal optical anisotropy and transparency across the visible spectrum, enabled by its unique three-dimensional O-Cu-O dumbbell structure and two-dimensionally confined excitons. Using mm-sized single crystals, we independently measured ab-plane and c-axis optical properties, revealing maximum birefringence (= 3.67) and linear dichroism (= 5.21), the highest reported to date. CuAlO2 retains birefringence over 0.5 throughout the entire visible range and possesses a wide direct bandgap of 3.71 eV, surpassing the birefringence of commercial anisotropic crystals transparent in the visible spectrum. From the two-dimensional screened hydrogen model and first-principles calculations, we demonstrate that the colossal anisotropy arises from a unique excitonic Cu d-p transition confined to the atomic-thick layer. This colossal optical anisotropy and transparency across the entire visible spectrum makes CuAlO2 a promising candidate for future photonic technologies.

Published

2024

2. Theoretical investigation of delafossite-Cu2ZnSnO4 as a promising photovoltaic absorber

Author

Kang, Seoung-Hun, Kang, Myeongjun, Hwang, Sang Woon, Yeom, Sinchul, Yoon, Mina, Ok, Jong Mok, and Yoon, Sangmoon

Subjects

Condensed Matter - Materials Science

Abstract

In the quest for efficient and cost-effective photovoltaic absorber materials beyond silicon, considerable attention has been directed toward exploring alternatives. One such material, zincblende-derived Cu2ZnSnS4 (CZTS), has shown promise due to its ideal band-gap size and high absorption coefficient. However, challenges such as structural defects and secondary phase formation have hindered its development. In this study, we examine the potential of another compound Cu2ZnSnO4 (CZTO) with a similar composition to CZTS as a promising alternative. Employing ab initio density function theory (DFT) calculations in combination with an evolutionary structure prediction algorithm, we identify that the crystalline phase of the delafossite structure is the most stable among the 900 (meta)stable CZTO. Its thermodynamic stability at room temperature is also confirmed by the molecular dynamics study. Excitingly, this new phase of CZTO displays a direct band gap where the dipole-allowed transition occurs, making it a strong candidate for efficient light absorption. Furthermore, the estimation of spectroscopic limited maximum efficiency (SLME) directly demonstrates the high potential of delafossite-CZTO as a photovoltaic absorber. Our numerical results suggest that delafossite-CZTO holds another promise for future photovoltaic applications.

Published

2023

3. Research on Music Recommendation Model with Limited Historical Data and User’s Information

Author

Kang, Myeongjun, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, and Arai, Kohei, editor

Published

2024

4. Growth of delafossite CuAlO2 single crystals in a reactive crucible

Author

Kim, Du hyung, Kong, Minsik, Kang, Myeongjun, Kim, Minjae, Kim, Seohee, Kim, Youngwook, Yoon, Sangmoon, and Ok, Jong Mok

Subjects

Condensed Matter - Materials Science

Abstract

Delafossite oxide CuAlO2 has engaged great attention as a promising p-type conducting oxide. In this work, high-quality CuAlO2 single crystals with a size of several millimeters (mm) are successfully achieved with a reactive crucible melting method. The crystals are characterized by X-ray diffraction, scanning electron microscopy with energy-dispersive spectroscopy, transport measurement, and magnetic susceptibility measurement. The grown single crystals are free of contamination from a copper oxide flux. This work provides a new approach to growing high-quality delafossite oxide CuAlO2 with a few mm size.

Published

2022

5. Large-size single crystal growth for quantum materials by Czochraski method

Author

Kong, Minsik, Kang, Myeongjun, Ji, Gwangcheol, Park, Seonguk, Choe, Byeongcheol, and Ok, Jong Mok

Published

2024

6. The Synthesis of β-Ti3O5 and λ-AlxTi3−xO5 with Arc Melting Method

Author

Kong, Minsik, primary, Kim, Seohee, primary, Kim, Min Jae, primary, Kang, Myeongjun, primary, Ji, Gwangcheol, primary, Park, Seonguk, primary, Lee, Jisung, primary, Son, Yeongjun, primary, Park, Sungkyun, primary, and Ok, Jong Mok, primary

Published

2024

7. Theoretical Investigation of Delafossite-Cu2ZnSnO4 as a Promising Photovoltaic Absorber

Author

Kang, Seoung-Hun, primary, Kang, Myeongjun, additional, Hwang, Sang Woon, additional, Yeom, Sinchul, additional, Yoon, Mina, additional, Ok, Jong Mok, additional, and Yoon, Sangmoon, additional

Published

2023

8. Theoretical Investigation of Delafossite-Cu 2 ZnSnO 4 as a Promising Photovoltaic Absorber.

Author

Kang, Seoung-Hun, Kang, Myeongjun, Hwang, Sang Woon, Yeom, Sinchul, Yoon, Mina, Ok, Jong Mok, and Yoon, Sangmoon

Subjects

*ABSORPTION coefficients, *LIGHT absorption, *SILICON nanowires

Abstract

In the quest for efficient and cost-effective photovoltaic absorber materials beyond silicon, considerable attention has been directed toward exploring alternatives. One such material, zincblende-derived Cu2ZnSnS4 (CZTS), has shown promise due to its ideal band gap size and high absorption coefficient. However, challenges such as structural defects and secondary phase formation have hindered its development. In this study, we examine the potential of another compound, Cu2ZnSnO4 (CZTO), with a similar composition to CZTS as a promising alternative. Employing ab initio density function theory (DFT) calculations in combination with an evolutionary structure prediction algorithm, we identify that the crystalline phase of delafossite structure is the most stable among the 900 (meta)stable CZTO. Its thermodynamic stability at room temperature is also confirmed by the molecular dynamics study. Excitingly, this new phase of CZTO displays a direct band gap where the dipole-allowed transition occurs, making it a strong candidate for efficient light absorptions. Furthermore, the estimation of spectroscopic limited maximum efficiency (SLME) directly demonstrates the high potential of delafossite-CZTO as a photovoltaic absorber. Our numerical results suggest that delafossite-CZTO holds promise for future photovoltaic applications. [ABSTRACT FROM AUTHOR]

Published

2023

9. Growth of delafossite CuAlO2 single crystals in a reactive crucible

Author

Kim, Du Hyung, primary, Kong, Minsik, additional, Kang, Myeongjun, additional, Kim, Minjae, additional, Kim, Seohee, additional, Kim, Youngwook, additional, Yoon, Sangmoon, additional, and Ok, Jong Mok, additional

Published

2022