pH Sensing Characteristics of Extended-Gate Field-Effect Transistor Based on Al-Doped ZnO Nanostructures Hydrothermally Synthesized at Low Temperatures

Yang P.-Y.; Wang J.-L.; Chiu P.-C.; Chou J.-C.; Chen C.-W.; Li H.-H.; Cheng H.-C.

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pH Sensing Characteristics of Extended-Gate Field-Effect Transistor Based on Al-Doped ZnO Nanostructures Hydrothermally Synthesized at Low Temperatures

机译：低温水热合成Al掺杂ZnO纳米结构的扩展栅场效应晶体管的pH传感特性

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The pH sensing properties of an extended-gate field-effect transistor (EGFET) with Al-doped ZnO (AZO) nanostructures are investigated. The AZO nanostructures with different Al dosages were synthesized on AZO/glass substrate via a simple hydrothermal growth method at 85 $^{circ}hbox{C}$ . The pH sensing characteristics of pH-EGFET sensors with an Al dosage of 1.98 at% can exhibit a higher voltage sensitivity of 57.95 mV/pH, a larger linearity of 0.9998, and a wide sensing range of pH 1–13, attributed to the well-aligned nanowire (NW) array, superior crystallinity, less structural defects, and better conductivity. Consequently, the hydrothermally grown AZO NWs demonstrate superior pH sensing characteristics and reveal the potentials for flexible and disposable biosensors.

机译：研究了具有Al掺杂ZnO（AZO）纳米结构的扩展栅场效应晶体管（EGFET）的pH传感特性。通过简单的水热生长方法，在AZO /玻璃基板上以85 $ ^ hbox {C} $合成了具有不同Al剂量的AZO纳米结构。 Al含量为1.98 at％的pH-EGFET传感器的pH感测特性可以显示出57.95 mV / pH的更高电压灵敏度，0.9998的更大线性度以及pH 1-13的宽感测范围，这归功于该孔。排列的纳米线（NW）阵列，出色的结晶度，更少的结构缺陷和更好的导电性。因此，水热生长的AZO NW具有卓越的pH感测特性，并揭示了柔性和一次性生物传感器的潜力。

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来源
《Electron Device Letters, IEEE》 |2011年第11期|p.1603-1605|共3页
作者
Yang P.-Y.; Wang J.-L.; Chiu P.-C.; Chou J.-C.; Chen C.-W.; Li H.-H.; Cheng H.-C.;
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作者单位

Department of Electronics Engineering and the Institute of Electronics, National Chiao Tung University, Hsinchu, Taiwan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Al-doped zinc oxide (AZO); extended-gate field-effect transistor (EGFET); hydrothermal method; low temperature;

机译：掺铝氧化锌（AZO）;扩展栅场效应晶体管（EGFET）;水热法;低温;

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专利

1. An Extended-Gate Field-Effect Transistor With Low-Temperature Hydrothermally Synthesized $hbox{SnO}_{2}$ Nanorods as pH Sensor [J] . Li H.-H., Dai W.-S., Chou J.-C., Electron Device Letters, IEEE . 2012,第10期

机译：带有低温水热合成的$ hbox {SnO} _ {2} $纳米棒作为pH传感器的扩展门场效应晶体管
2. Field-Emission Characteristics of Al-Doped ZnO Nanostructures Hydrothermally Synthesized at Low Temperature [J] . Po-Yu Yang, Jyh-Liang Wang, Wei-Chih Tsai, Journal of nanoscience and nanotechnology . 2011,第7期

机译：低温水热合成Al掺杂ZnO纳米结构的场发射特性
3. The pH Sensing Characteristics of the Extended-Gate Field-Effect Transistors of Multi-Walled Carbon-Nanotube Thin Film Using Low-Temperature Ultrasonic Spray Method [J] . Yun-Shan Chien, Po-Yu Yang, Wan-Lin Tsai, Journal of nanoscience and nanotechnology . 2012,第7期

机译：低温超声喷涂法制备多壁碳纳米管薄膜扩展门场效应晶体管的pH传感特性
4. Characteristics of Al-doped ZnO nanorods synthesized by the hydrothermal process at Low temperature [C] . Chiang Jung-Lung, Tsai Sui-Chu 2013 IEEE 5th International Nanoelectronics Conference. . 2013

机译：低温水热法合成Al掺杂ZnO纳米棒的特性
5. Design, fabrication and characterization of N-channel InGaAsP-InP based inversion channel technology devices (ICT) for optoelectronic integrated circuits (OEIC): Double heterojunction optoelectronic switches (DOES), heterojunction field-effect transistors (HFET), bipolar inversion channel field-effect transistors (BICFET) and bipolar inversion channel phototransistors (BICPT). [D] . Tan, Eugene. 1998

机译：基于N沟道InGaAsP-InP的倒置通道技术器件（ICT）的设计，制造和表征，用于光电集成电路（OEIC）：双异质结光电开关（DOES），异质结场效应晶体管（HFET），双极倒置沟道场-效应晶体管（BICFET）和双极型反向沟道光电晶体管（BICPT）。
6. Investigation of extended-gate field-effect transistor pH sensors based on different-temperature-annealed bi-layer MWCNTs-In2O3 films [O] . Shang-Chao Hung, Nai-Jen Cheng, Cheng-Fu Yang, 2014

机译：基于不同温度退火双层MWCNTs-In2O3薄膜的扩展栅场效应晶体管pH传感器的研究
7. Comparison of NO2 Gas-Sensing Properties of Three Different ZnO Nanostructures Synthesized by On-Chip Low-Temperature Hydrothermal Growth [O] . Jiao, Mingzhi, Nguyen, van Duy, Nguyen, Viet Chien, 2017

机译：片上低温水热生长合成的三种不同ZnO纳米结构的NO2气敏特性比较

pH Sensing Characteristics of Extended-Gate Field-Effect Transistor Based on Al-Doped ZnO Nanostructures Hydrothermally Synthesized at Low Temperatures

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