Your search keyword '"Ho, Chun Yuen"' showing total 30 results

1. Overcoming the doping limit in GaAs by ion implantation and pulsed laser melting

Author

Yu, Kin Man, Scarpulla, MA, Ho, Chun Yuen, Dubon, OD, and Walukiewicz, W

Subjects

Engineering, Physical Sciences, Condensed Matter Physics, Mathematical Sciences, Applied Physics, Mathematical sciences, Physical sciences

Abstract

Most semiconductors exhibit a saturation of free carriers when heavily doped with extrinsic dopants. This carrier saturation or “doping limit” is known to be related to the formation of native compensating defects, which, in turn, depends on the energy positions of their conduction band minimum and valence band maximum. Here, we carried out a systematic study on the n-type doping limit of GaAs via ion implantation and showed that this doping limitation can be alleviated by the transient process of pulsed laser melting (PLM). For n-type doping, both group VI (S) and amphoteric group IV (Si and Ge) dopants were implanted in GaAs. For comparison, p-type doping was also studied using Zn as the acceptor. Implanted dopants were activated by the PLM method, and the results are compared to rapid thermal annealing (RTA). Our results reveal that for all n-type dopants, while implantation followed by the RTA results in a similar saturation electron concentration of 2-3 × 1018 cm−3, the transient PLM process is capable of trapping high concentration of dopants in the substitutional site, giving rise to a carrier concentration of >1019 cm−3, exceeding the doping limit of GaAs. However, due to scatterings from point defects generated during PLM, the mobility of n-type GaAs after PLM is low (∼80-260 cm2/V s). Subsequent RTA after PLM (PLM + RTA) is able to remove these point defects and recover the mobility to ∼1000-2000 cm2/V s. The carrier concentrations of these PLM + RTA samples are reduced but are still a factor of 3 higher than RTA only GaAs. This can be understood as the dopants are already incorporated in the substitutional site after PLM; they are less likely to be “deactivated” by subsequent RTA. This work is significant to the understanding of doping mechanisms in semiconductors and provides a means for device applications, which require materials with ultra-high doping.

Published

2024

2. Effects of hydrogen doping on the phase structure and optoelectronic properties of p-type transparent SnO

Author

Zha, Shen Jie, Wu, Shan, Shi, Xiao Xia, Liu, Gui Shan, Chen, Xiong Jing, Ho, Chun Yuen, Yu, Kin Man, and Liu, Chao Ping

Published

2024

3. Defect-dependent environmental stability of high mobility transparent conducting In-doped CdO.

Author

Wu, Shan, Zha, Shen Jie, Zhang, Yang, Liu, Gui Shan, Chen, Xiong Jing, Li, Zhan Hua, Ho, Chun Yuen, Deng, Bei, Yu, Kin Man, and Liu, Chao Ping

Subjects

PASSIVATION, THIN films, ELECTRON mobility, OPTOELECTRONIC devices, CRYSTAL grain boundaries, HUMIDITY

Abstract

Highly degenerate n-type CdO with high electron mobility is a promising transparent conducting oxide (TCO) for optoelectronic devices utilizing a spectrum in the Vis-NIR range. In particular, it has been shown that doped CdO thin films can show much superior transparency of >80% in the NIR region compared to conventional transparent conducting oxide (e.g., Sn-doped In2O3) thin films with a similar sheet resistance. However, CdO thin films typically experience rapid degradation in their electron mobilities when exposed to environmental conditions with H2O moisture. Here, we studied the effects of thermal annealing on the environmental stability of In-doped CdO (CdO:In) using a combination of different analytical techniques. CdO:In thin films with different In concentration (0%–8.3%) synthesized by magnetron sputtering were subjected to different post-thermal annealing (PTA) and then aged in different environmental conditions with varying relative humidity (RH) in the range of 0%–85%. Our results reveal that the degradation of CdO:In thin films can be primarily attributed to the oxygen vacancy-related defects at the grain boundaries, which can readily react with the OH− in the moisture. The moisture induced degradation can be mitigated by appropriate PTA at high temperatures (>400 °C) where grain boundary defects, primarily associated with Cd vacancies, can be passivated through hydrogen (H), thus enhancing their environmental stability. The present study provides a comprehensive understanding of the instability mechanisms and defect passivation in transparent conducting CdO:In thin films, which can also be relevant for other wide gap oxides. [ABSTRACT FROM AUTHOR]

Published

2024

4. Optoelectronic properties and doping of magnetron sputtered highly mismatched ZnO1-xTex alloy thin films

Author

Liu, Chao Ping, Ho, Chun Yuen, Egbo, Kingsley O., Li, Zhan Hua, Xu, Cong Kang, and Yu, Kin Man

Published

2021

5. Mid-Infrared, Optically Active Black Phosphorus Thin Films on Centimeter Scale

Author

Higashitarumizu, Naoki, primary, Kawashima, Tetsuya, additional, Smart, Thomas, additional, Yalisove, Reed, additional, Ho, Chun Yuen, additional, Madsen, Morten, additional, Chrzan, Daryl C., additional, Scott, Mary C., additional, Jeanloz, Raymond, additional, Yusa, Hitoshi, additional, and Javey, Ali, additional

Published

2024

6. Controlling Native Defects in Sputtered Zinc Oxides Electron Transport Layers for High-performance Non-fullerene Acceptors-based Organic Photovoltaics

Author

Ho, Chun Yuen, primary, Wang, Kun, additional, Aryal, Um Kanta, additional, and Madsen, Morten, additional

Published

2023

7. Controlling electrical and optical properties of wurtzite CdxZn1−xO with high Cd contents via native defects manipulation by low-temperature annealing.

Author

Ho, Chun Yuen, Wang, Ying, Liu, Chao Ping, and Yu, Kin Man

Abstract

Bandgap energies in wurtzite (WZ) structured CdxZn1−xO alloys are known to decrease with increasing Cd content (x). Our previous work demonstrated that WZ-CdxZn1−xO alloys with a high Cd content of x ∼ 0.6 and a low gap of 2 eV can be stabilized by oxygen interstitials when grown in an O-rich environment. However, such O-rich WZ-CdxZn1−xO alloys have poor electrical properties due to compensating native defects. In this work, we synthesized pure WZ phase CdxZn1−xO thin films with different Cd contents by magnetron sputtering in an oxygen-rich environment. Changes in structural, electrical, and optical properties of these O-rich wurtzite CdxZn1−xO after rapid thermal annealing were investigated. While alloys with a low Cd composition of 0.2 can maintain a pure wurtzite structure up to 500 °C, phase separation occurs at a lower annealing temperature of ∼400 °C for Cd-rich (x = 0.6) films. Isochronal and isothermal annealing studies reveal the kinetics of native defects in these alloys. Highly mobile hydrogen interstitial donor defects, oxygen interstitials, and more stable cation vacancies outdiffuse sequentially as the annealing temperature increases from <300 to >400 °C. By exploiting the difference in the energy barrier between acceptor defects removal and phase separation, a pure wurtzite phase alloy with a low bandgap of 2 eV and decent electrical properties was realized by annealing O-rich WZ-Cd0.6Zn0.4O at 300 °C with an extended annealing duration of >100 s. These results demonstrate a practical way to obtain low-gap oxide semiconductors with strong optical absorption and controllable electrical conductivities. [ABSTRACT FROM AUTHOR]

Published

2022

8. Powering internet-of-things from ambient energy: a review

Author

Chatterjee, Arindom, Lobato, Carlos Nuñez, Zhang, Haiwu, Bergne, Achilles, Esposito, Vincenzo, Yun, Shinhee, Insinga, Andrea Roberto, Christensen, Dennis Valbjørn, Imbaquingo, Carlos, Bjørk, Rasmus, Ahmed, Hamsa, Ahmad, Mariam, Ho, Chun Yuen, Madsen, Morten, Chen, Jixi, Norby, Poul, Chiabrera, Francesco Maria, Gunkel, Felix, Ouyang, Ziwei, Pryds, Nini, Chatterjee, Arindom, Lobato, Carlos Nuñez, Zhang, Haiwu, Bergne, Achilles, Esposito, Vincenzo, Yun, Shinhee, Insinga, Andrea Roberto, Christensen, Dennis Valbjørn, Imbaquingo, Carlos, Bjørk, Rasmus, Ahmed, Hamsa, Ahmad, Mariam, Ho, Chun Yuen, Madsen, Morten, Chen, Jixi, Norby, Poul, Chiabrera, Francesco Maria, Gunkel, Felix, Ouyang, Ziwei, and Pryds, Nini

Abstract

Internet-of-thing (IoT) is an assembly of devices that collect and share data with other devices and communicate via the internet. This massive network of devices, generates and communicates data and is the key to the value in IoT, allowing access to raw information, gaining insight, and making an intelligent decisions. Today, there are billions of IoT devices such as sensors and actuators deployed. Many of these applications are easy to connect, but those tucked away in hard-to-access spots will need to harvest ambient energy. Therefore, the aim is to create devices that are self-report in real-time. Efforts are underway to install a self-powered unit in IoT devices that can generate sufficient power from environmental conditions such as light, vibration, and heat. In this review paper, we discuss the recent progress made in materials and device development in power- and, storage units, and power management relevant for IoT applications. This review paper will give a comprehensive overview for new researchers entering the field of IoT and a collection of challenges as well as perspectives for people already working in this field.

Published

2023

9. Powering internet-of-things from ambient energy: a review

Author

Chatterjee, Arindom, primary, Lobato, Carlos Nuñez, additional, Zhang, Haiwu, additional, Bergne, Achilles, additional, Esposito, Vincenzo, additional, Yun, Shinhee, additional, Insinga, Andrea Roberto, additional, Christensen, Dennis Valbjørn, additional, Imbaquingo, Carlos, additional, Bjørk, Rasmus, additional, Ahmed, Hamsa, additional, Ahmad, Mariam, additional, Ho, Chun Yuen, additional, Madsen, Morten, additional, Chen, Jixi, additional, Norby, Poul, additional, Chiabrera, Francesco Maria, additional, Gunkel, Felix, additional, Ouyang, Ziwei, additional, and Pryds, Nini, additional

Published

2023

10. Effect of oxygen flow rate on properties of Cu4O3 thin films fabricated by radio frequency magnetron sputtering.

Author

Patwary, Md Abdul Majed, Ho, Chun Yuen, Saito, Katsuhiko, Guo, Qixin, Yu, Kin Man, Walukiewicz, Wladek, and Tanaka, Tooru

Subjects

*MAGNETRON sputtering, *THIN films, *OPTICAL films, *GAS flow, *PARTIAL pressure

Abstract

Cu4O3 thin films have been synthesized in an ambient of Ar and O2 plasma using a pure Cu target by radio frequency magnetron sputtering. The structural, electrical, and optical properties of the films were studied systematically as a function of O2 gas flow. The study reveals that O2 flow rate (R O 2 ) during sputtering has major impacts on both the composition and functional properties of the resultant Cu4O3 thin films. X-ray diffraction and Raman spectroscopy measurements suggest that the parameter window for the growth of single-phase Cu4O3 thin films was very narrow. Oxygen partial pressure of 7.9%–9.1% was required to grow the pure phase of Cu4O3. From optical absorption analyses, pure phase Cu4O3 films exhibited a direct transition at Eg = 1.52–1.62 eV. All the Cu4O3 thin films showed p-type conductivity with resistivities in the order of 102–103 Ω cm. An increase of R O 2 resulted in the increase of the Hall mobility from 0.01 to 0.25 cm2/V s, which is the highest mobility reported so far for this material. These results indicate clearly that Cu4O3 is a semiconductor with a high potential as absorber materials in low-cost thin film photovoltaics. [ABSTRACT FROM AUTHOR]

Published

2020

11. Controlling electrical and optical properties of wurtzite CdxZn1−xO with high Cd contents via native defects manipulation by low-temperature annealing

Author

Ho, Chun Yuen, primary, Wang, Ying, additional, Liu, Chao Ping, additional, and Yu, Kin Man, additional

Published

2022

12. Doping Limitation Due to Self-compensation by Native Defects in In-doped Rocksalt CdxZn1-xO

Author

HO, Chun Yuen, primary, Li, Chia Hsiang, additional, Liu, Chao Ping, additional, Huang, Zhi-Quan, additional, Chuang, Feng-Chuan, additional, and Yu, Kin Man, additional

Published

2021

13. Effects of oxygen flow ratio and thermal annealing on defect evolution of aluminum doped zinc oxide thin films by reactive DC magnetron sputtering

Author

Liu, Chao Ping, primary, Li, Zhan Hua, additional, Egbo, Kingsley O, additional, Kwok, Cheuk Kai, additional, Lv, Xiao Hu, additional, Ho, Chun Yuen, additional, Wang, Ying, additional, and Yu, Kin Man, additional

Published

2021

14. Controlling the p-Type Conductivity and Composition Range for Bipolar Conduction in NixCd1–xO Alloys by Acceptor Doping

Author

Egbo, Kingsley O., primary, Liu, Chao Ping, additional, Hossain, Mohammad K., additional, Ho, Chun Yuen, additional, Kwok, Cheuk Gary, additional, Shil, Sujit K., additional, Ezeh, Chioma V., additional, Wang, Ying, additional, and Yu, Kin Man, additional

Published

2020

15. Wide-Gap Zn1−xNixO Alloy: A Transparent p -Type Oxide

Author

Liu, Chao Ping, primary, Egbo, Kingsley O., additional, Ho, Chun Yuen, additional, Wang, Ying, additional, Xu, Cong Kang, additional, and Yu, Kin Man, additional

Published

2020

16. Anomalies of upper critical field in the spinel superconductor LiTi2O4−δ

Author

Wei, Zhongxu, primary, He, Ge, additional, Hu, Wei, additional, Feng, Zhongpei, additional, Wei, Xinjian, additional, Ho, Chun Yuen, additional, Li, Qian, additional, Yuan, Jie, additional, Xi, Chuanying, additional, Wang, Zhaosheng, additional, Chen, Qihong, additional, Zhu, Beiyi, additional, Zhou, Fang, additional, Dong, Xiaoli, additional, Pi, Li, additional, Kusmartseva, A., additional, Kusmartsev, F. V., additional, Zhao, Zhongxian, additional, and Jin, Kui, additional

Published

2019

17. Effects of oxygen stoichiometry on the phase stability of sputter-deposited CdxZn1−xO alloys

Author

Ho, Chun Yuen, primary, Liu, Chao Ping, additional, Chen, Yi-Chun, additional, Huang, Zhi-Quan, additional, Chuang, Feng-Chuan, additional, and Yu, Kin Man, additional

Published

2019

18. Effects of the Growth Environment on the Phase Stability of Sputter-deposited CdxZn1-xO Alloys

Author

Ho, Chun Yuen, primary, Liu, Chao Ping, additional, Chen, Yi-Chun, additional, Huang, Zhi-Quan, additional, Chuang, Feng-Chuan, additional, and Yu, Kin Man, additional

Published

2019

19. Transparent $\mathbf{Ni}_{\mathbf{x}}\mathbf{Cd}_{1-\mathbf{x}}\mathbf{O}_{1+\boldsymbol{\delta}}$ alloy thin films with bipolar conductivity

Author

Liu, Chao Ping, primary, Ebgo, Kingsley O., additional, Ho, Chun Yuen, additional, Walukiewicz, Wladek, additional, and Yu, Kin Man, additional

Published

2019

20. Stoichiometry Controlled Bipolar Conductivity in Nanocrystalline NixCd1−xO1+δ Thin Films

Author

Liu, Chao Ping, primary, Egbo, Kingsley O., additional, Ho, Chun Yuen, additional, Zapien, Juan Antonio, additional, Walukiewicz, W., additional, and Yu, Kin Man, additional

Published

2019

21. Room-Temperature-Synthesized High-Mobility Transparent Amorphous CdO–Ga2O3 Alloys with Widely Tunable Electronic Bands

Author

Liu, Chao Ping, primary, Ho, Chun Yuen, additional, dos Reis, Roberto, additional, Foo, Yishu, additional, Guo, Peng Fei, additional, Zapien, Juan Antonio, additional, Walukiewicz, Wladek, additional, and Yu, Kin Man, additional

Published

2018

22. Room-Temperature Red-Green-Blue Whispering-Gallery Mode Lasing and White-Light Emission from Cesium Lead Halide Perovskite (CsPbX3 , X = Cl, Br, I) Microstructures

Author

Guo, Pengfei, primary, Hossain, Mohammad Kamal, additional, Shen, Xia, additional, Sun, Haibin, additional, Yang, Wenchao, additional, Liu, Chaoping, additional, Ho, Chun Yuen, additional, Kwok, Cheuk Kai, additional, Tsang, Sai-Wing, additional, Luo, Yongsong, additional, Ho, Johnny C., additional, and Yu, Kin Man, additional

Published

2017

23. High mobility transparent amorphous CdO-In2O3 alloy films synthesized at room temperature

Author

Liu, Chao Ping, primary, Ho, Chun Yuen, additional, Kwok, Cheuk Kai, additional, Guo, Peng Fei, additional, Hossain, M. K., additional, Zapien, J. A., additional, and Yu, Kin Man, additional

Published

2017

24. Effects of Free Carriers on the Optical Properties of Doped CdO for Full-Spectrum Photovoltaics

Author

Liu, Chao Ping, primary, Foo, Yishu, additional, Kamruzzaman, M., additional, Ho, Chun Yuen, additional, Zapien, J. A., additional, Zhu, Wei, additional, Li, Y. J., additional, Walukiewicz, Wladek, additional, and Yu, Kin Man, additional

Published

2016

25. Transparent conducting amorphous CdO-Ga2O3 films synthesized by room temperature sputtering

Author

Yu, Kin Man, primary, Liu, Chaoping, additional, Ho, Chun Yuen, additional, Foo, Yishu, additional, Kamruzzaman, M, additional, Zapien, Juan Antonio, additional, Gao, Weiwei, additional, and Walukiewicz, Wladek, additional

Published

2016

26. Room‐Temperature Red–Green–Blue Whispering‐Gallery Mode Lasing and White‐Light Emission from Cesium Lead Halide Perovskite (CsPbX3, X = Cl, Br, I) Microstructures.

Author

Guo, Pengfei, Hossain, Mohammad Kamal, Shen, Xia, Sun, Haibin, Yang, Wenchao, Liu, Chaoping, Ho, Chun Yuen, Kwok, Cheuk Kai, Tsang, Sai‐Wing, Luo, Yongsong, Ho, Johnny C., and Yu, Kin Man

Abstract

Abstract: Wavelength‐tunable nano/microlasers are essential components for various highly integrated and multifunctional photonic devices. Based on the different band gap/composition of inorganic cesium lead halide perovskite materials, broad band light absorption and emission devices can be achieved. Herein, a vapor–liquid–solid route for growing cesium lead halide perovskite (CsPbX3, X = Cl, Br, I) microcrystal structures is demonstrated. These square‐shaped microstructures exhibit strong blue, green, and red photoluminescence, indicating that their band gaps can be engineered to cover the entire visible range. Optically pumped red–green–blue whispering‐gallery mode lasers based on the controlled composition of these microcrystals are successfully realized at room temperature. Moreover, rationally designed white‐light‐emitting chips with high brightness are fabricated utilizing these metal halide perovskite microstructures grown on sapphire. All these results evidently suggest a feasible route to the design of red–green–blue lasers and white‐light emitters for potential applications in full‐color displays as well as photonic devices. [ABSTRACT FROM AUTHOR]

Published

2018

27. Room-Temperature-Synthesized High-Mobility Transparent Amorphous CdO–Ga2O3Alloys with Widely Tunable Electronic Bands

Author

Liu, Chao Ping, Ho, Chun Yuen, dos Reis, Roberto, Foo, Yishu, Guo, Peng Fei, Zapien, Juan Antonio, Walukiewicz, Wladek, and Yu, Kin Man

Abstract

In this work, we have synthesized Cd1–xGaxO1+δalloy thin films at room temperature over the entire composition range by radio frequency magnetron sputtering. We found that alloy films with high Ga contents of x> 0.3 are amorphous. Amorphous Cd1–xGaxO1+δalloys in the composition range of 0.3 < x< 0.5 exhibit a high electron mobility of 10–20 cm2V–1s–1with a resistivity in the range of 10–2to high 10–4Ω cm range. The resistivity of the amorphous alloys can also be controlled over 5 orders of magnitude from 7 × 10–4to 77 Ω cm by controlling the oxygen stoichiometry. Over the entire composition range, these crystalline and amorphous alloys have a large tunable intrinsic band gap range of 2.2–4.8 eV as well as a conduction band minimum range of 5.8–4.5 eV below the vacuum level. Our results suggest that amorphous Cd1–xGaxO1+δalloy films with 0.3 < x< 0.4 have favorable optoelectronic properties as transparent conductors on flexible and/or organic substrates, whereas the band edges and electrical conductivity of films with 0.3 < x< 0.7 can be manipulated for transparent thin-film transistors as well as electron transport layers.

Published

2018

28. Transparent Conducting Amorphous CdO-Ga2O3 Films Synthesized by Room Temperature Sputtering

Author

Kin Man Yu, Chaoping Liu, Ho, Chun Yuen, Yishu Foo, Kamruzzaman, M., Zapien, Juan Antonio, Weiwei Gao, and Wladek Walukiewicz

29. Meter-scale van der Waals films manufactured via one-step roll printing.

Author

Lee K, Higashitarumizu N, Wang S, Kim C, Ho CY, Oh JW, Zan G, Madsen M, Lee TW, Chrzan DC, Park C, and Javey A

Abstract

A weak van der Waals (vdW) force in layered materials enables their isolation into thin flakes through mechanical exfoliation while sustaining their intrinsic electronic and optical properties. Here, we introduce a universal roll-printing method capable of producing vdW multilayer films on wafer-to-meter scale. This process uses sequential exfoliation and transfer of layered materials from the powder sources to target substrates through a repeated rolling of a cylindrical metal drum. We achieve uniformly coated films with a library of vdW powders on various mechanically rigid and flexible substrates. The printed films are configured into different devices including light-emitting diodes and photodetectors. The presented technique offers substantial benefits in terms of cost efficiency and a low thermal budget while offering high material quality.

Published

2024

30. Room-Temperature-Synthesized High-Mobility Transparent Amorphous CdO-Ga 2 O 3 Alloys with Widely Tunable Electronic Bands.

Author

Liu CP, Ho CY, Dos Reis R, Foo Y, Guo PF, Zapien JA, Walukiewicz W, and Yu KM

Abstract

In this work, we have synthesized Cd 1-x Ga x O 1+δ alloy thin films at room temperature over the entire composition range by radio frequency magnetron sputtering. We found that alloy films with high Ga contents of x > 0.3 are amorphous. Amorphous Cd 1-x Ga x O 1+δ alloys in the composition range of 0.3 < x < 0.5 exhibit a high electron mobility of 10-20 cm 2 V -1 s -1 with a resistivity in the range of 10 -2 to high 10 -4 Ω cm range. The resistivity of the amorphous alloys can also be controlled over 5 orders of magnitude from 7 × 10 -4 to 77 Ω cm by controlling the oxygen stoichiometry. Over the entire composition range, these crystalline and amorphous alloys have a large tunable intrinsic band gap range of 2.2-4.8 eV as well as a conduction band minimum range of 5.8-4.5 eV below the vacuum level. Our results suggest that amorphous Cd 1-x Ga x O 1+δ alloy films with 0.3 < x < 0.4 have favorable optoelectronic properties as transparent conductors on flexible and/or organic substrates, whereas the band edges and electrical conductivity of films with 0.3 < x < 0.7 can be manipulated for transparent thin-film transistors as well as electron transport layers.

Published

2018