Non-equilibrium origin of high electrical conductivity in gallium zinc oxide thin films

Andriy Zakutayev; Nicola H. Perry; Thomas O. Mason; David S. Ginley; Stephan Lany

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Non-equilibrium origin of high electrical conductivity in gallium zinc oxide thin films

机译：镓锌氧化物薄膜中高电导率的非平衡起源

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Non-equilibrium state defines physical properties of materials in many technologies, including architectural, metallic, and semiconducting amorphous glasses. In contrast, crystalline electronic and energy materials, such as transparent conductive oxides (TCO), are conventionally thought to be in equilibrium. Here, we demonstrate that high electrical conductivity of crystalline Ga-doped ZnO TCO thin films occurs by virtue of metastable state of their defects. These results imply that such defect metastability may be important in other functional oxides. This finding emphasizes the need to understand and control non-equilibrium states of materials, in particular, their metastable defects, for the design of novel functional materials.

机译：非平衡状态定义了许多技术中材料的物理属性，包括建筑，金属和半导体非晶玻璃。相反，通常认为晶体电子和能量材料，例如透明导电氧化物（TCO）处于平衡状态。在这里，我们证明了晶体Ga掺杂的ZnO TCO薄膜的高电导率是由于其缺陷的亚稳定状态而产生的。这些结果表明，这种缺陷亚稳性在其他功能性氧化物中可能很重要。该发现强调了对于新颖功能材料的设计，需要理解和控制材料的非平衡状态，特别是它们的亚稳态缺陷。

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来源
《Applied Physics Letters》 |2013年第23期|232106.1-232106.4|共4页
作者
Andriy Zakutayev; Nicola H. Perry; Thomas O. Mason; David S. Ginley; Stephan Lany;
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National Renewable Energy Laboratory, 15013 Denver W Pkwy, Golden, Colorado 80401, USA;

Northwestern University, 633 Clark St, Evanston, Illinois 60208, USA;

Northwestern University, 633 Clark St, Evanston, Illinois 60208, USA;

National Renewable Energy Laboratory, 15013 Denver W Pkwy, Golden, Colorado 80401, USA;

National Renewable Energy Laboratory, 15013 Denver W Pkwy, Golden, Colorado 80401, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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1. Non-equilibrium origin of high electrical conductivity in gallium zinc oxide thin films [J] . Zakutayev Andriy, Perry Nicola H., Mason Thomas O., Applied Physics Letters . 2013,第23期

机译：镓锌氧化物薄膜中高电导率的非平衡起源
2. Chemical Stability and Electrical Performance of Dual-Active-Layered Zinc-Tin-Oxide/lndium-Gallium-Zinc-Oxide Thin-Film Transistors Using a Solution Process [J] . Chul Ho Kim, You Seung Rim, Hyun Jae Earn ACS applied materials & interfaces . 2013,第13期

机译：溶液法双活性层氧化锌锡/铟镓锌氧化锌薄膜晶体管的化学稳定性和电性能
3. The electrical, optical, and structural properties of amorphous indium gallium zinc oxide films and channel thin-film transistors [J] . C.H. Jung, H.I. Kang, D.H. Yoon Solid-State Electronics . 2013,第JANa期

机译：非晶铟镓锌氧化物薄膜和沟道薄膜晶体管的电，光和结构特性
4. Structural, Electrical and Optical Properties of Gallium Doped Zinc Oxide Thin Films Prepared by Electron Beam Evaporation Technique [C] . S. Nagarani, C. Sanjeeviraja DAE Solid State Physics Symposium . 2011

机译：通过电子束蒸发技术制备镓掺杂氧化锌薄膜的结构，电气和光学性质
5. Engineering of the Optical, Structural, Electrical, and Magnetic Properties of Oxides and Nitrides of Indium-Gallium-Zinc Thin Films Using Nanotechnology [D] . Ebdah, Mohammad A. 2011

机译：使用纳米技术的氧化物和氧化铟锌薄膜的氧化物和氮化物的光学，结构，电和磁性的工程
6. Influence of Oxygen Flow Rate on Channel Width Dependent Electrical Properties of Indium Gallium Zinc Oxide Thin-Film Transistors [O] . Gwomei Wu, Anup K. Sahoo 2020

机译：氧气流速对氧化铟锌薄膜晶体管沟道宽度电性能的影响
7. Thermal Conductivity of Nano-Crystallized Indium-Gallium-Zinc Oxide Thin Films Determined by Differential Three-Omega Method [O] . Rauf Khan, Michitaka Ohtaki, Satoshi Hata, 2021

机译：纳米结晶铟 - 镓 - 氧化锌薄膜的导热系数通过差分三ω方法测定

Non-equilibrium origin of high electrical conductivity in gallium zinc oxide thin films

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