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증착 및 열처리 조건에 따른 AZO/Cu/AZO 박막의 전기적 ‧ 광학적 특성 평가 KCI 등재 SCOPUS

Effect of Deposition and Heat Treatment Conditions on the Electrical and Optical Properties of AZO/Cu/AZO Thin Film

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한국재료학회지 (Korean Journal of Materials Research)
한국재료학회 (Materials Research Society Of Korea)
초록

AZO/Cu/AZO thin films were deposited on glass by RF magnetron sputtering. The specimens showed the preferred orientation of (0002) AZO and (111) Cu. The Cu crystal sizes increased from about 3.7 nm to about 8.5 nm with increasing Cu thickness, and from about 6.3 nm to about 9.5 nm with increasing heat treatment temperatures. The sizes of AZO crystals were almost independent of the Cu thickness, and increased slightly with heat treatment temperature. The residual stress of AZO after heat treatment also increased compressively from -4.6 GPa to -5.6 GPa with increasing heat treatment temperature. The increase in crystal size resulted from grain growth, and the increase in stress resulted from the decrease in defects that accompanied grain growth, and the thermal stress during cooling from heat treatment temperature to room temperature. From the PL spectra, the decrease in defects during heat treatment resulted in the increased intensity. The electrical resistivities of the 4 nm Cu film were 5.9 × 10-4 Ω ‧ cm and about 1.0 × 10-4 Ω ‧ cm for thicker Cu films. The resistivity decreased as the temperature of heat treatment increased. As the Cu thickness increased, an increase in carrier concentration resulted, as the fraction of AZO/Cu/AZO metal film increased. And the increase in carrier concentration with increasing heat treatment temperature might result from the diffusion of Cu ions into AZO. Transmittance decreased with increasing Cu thicknesses, and reached a maximum near the 500 nm wavelength after being heat treated at 200 °C.

목차
Abstract
1. 서 론
2. 실험 방법
3. 결과 및 고찰
    3.1. AZO/Cu/AZO 박막의 결정 크기와 잔류 응력
    3.2. 에너지 밴드갭과 내부 결함
    3.3. 홀 효과 측정과 전기적 성질
    3.4. 박막의 투과율과 성능지수
4. 결 론
Acknowledgement
References
저자
  • 김찬영(한밭대학교 신소재공학과, 반도체소재부품장비센터) | Chan-Young Kim (Department of Advanced Materials Engineering and Semiconductor Fabrication Center, Hanbat National University)
  • 임하은(한밭대학교 신소재공학과, 반도체소재부품장비센터) | Ha-Eun Lim (Department of Advanced Materials Engineering and Semiconductor Fabrication Center, Hanbat National University)
  • 양가은(한밭대학교 신소재공학과, 반도체소재부품장비센터) | Gaeun Yang (Department of Advanced Materials Engineering and Semiconductor Fabrication Center, Hanbat National University)
  • 권숙정(한밭대학교 신소재공학과, 반도체소재부품장비센터) | Sukjeang Kwon (Department of Advanced Materials Engineering and Semiconductor Fabrication Center, Hanbat National University)
  • 강찬희(한밭대학교 신소재공학과, 반도체소재부품장비센터) | Chan-Hee Kang (Department of Advanced Materials Engineering and Semiconductor Fabrication Center, Hanbat National University)
  • 임상철(한밭대학교 신소재공학과, 반도체소재부품장비센터) | Sang-Chul Lim (Department of Advanced Materials Engineering and Semiconductor Fabrication Center, Hanbat National University)
  • 이택영(한밭대학교 신소재공학과, 반도체소재부품장비센터) | Taek Yeong Lee (Department of Advanced Materials Engineering and Semiconductor Fabrication Center, Hanbat National University) Corresponding author