Highly sensitive and selective room-temperature formaldehyde sensors using hollow TiO_2 microspheres

Xiaogan Li; Xiaoxin Li; Jing Wang; Shiwei Lin

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Highly sensitive and selective room-temperature formaldehyde sensors using hollow TiO_2 microspheres

机译：使用中空TiO_2微球的高灵敏度，选择性室温甲醛传感器

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Room temperature chemoresistive gas sensors could significantly decrease the demand of power consumption and are thus highly desirable in self-sustained nanosensors. Here we report that chemoresistive sensors fabricated from mesoporous hollow TiO_2 microspheres show high sensitivity and selectivity to sub-ppm level of formaldehyde at room temperature with the assistance of low powered UV LED photon energy (2.5 mW). The sensor indicated excellent selectivity to other possible interferrents such as methanol, ethanol, acetone, ammonia and methylbenzene at low concentrations. These sensors have a much faster response (～40s)/recovery (～50s) characteristic, which significantly surpass the sensing properties shown by other types of nanostructured TiO_2 reported in literature.

机译：室温化学电阻式气体传感器可以显着降低功耗需求，因此在自持纳米传感器中非常需要。在这里我们报道由中孔空心TiO_2微球制成的化学电阻传感器在低功率UV LED光子能量（2.5 mW）的帮助下，在室温下对甲醛的亚ppm级显示出高灵敏度和选择性。该传感器对低浓度的其他可能的干扰物（例如甲醇，乙醇，丙酮，氨和甲基苯）具有出色的选择性。这些传感器具有更快的响应（〜40s）/恢复（〜50s）特性，大大超过了文献中报道的其他类型的纳米结构TiO_2所显示的传感特性。

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来源
《Sensors and Actuators》 |2015年第11期|158-163|共6页
作者
Xiaogan Li; Xiaoxin Li; Jing Wang; Shiwei Lin;
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作者单位

School of Electronic Science and Technology, Institute for Sensing Technology, Dalian University of Technology, PR China;

School of Electronic Science and Technology, Institute for Sensing Technology, Dalian University of Technology, PR China;

School of Electronic Science and Technology, Institute for Sensing Technology, Dalian University of Technology, PR China;

Key Laboratory of Ministry of Education for Advanced Materials in Tropical Island Resources, College of Materials and Chemical Engineering, Hainan University, Haikou 570228, PR China;

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原文格式 PDF
正文语种 eng
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关键词
Hollow TiO_2 microspheres; Room-temperature chemoresistive gas sensors; Formaldehyde; UV illumination;

机译：空心TiO_2微球;室温化学电阻式气体传感器;甲醛;紫外线照明;

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1. Reduced graphene oxide (rGO) decorated TiO_2 microspheres for selective room-temperature gas sensors [J] . Xiaogan Li, Yangyang Zhao, Xueyan Wang, Sensors and Actuators . 2016,第Jula期

机译：用于选择性室温气体传感器的还原氧化石墨烯（rGO）装饰的TiO_2微球
2. Highly sensitive room-temperature gas sensors based on hydrothermal synthesisof Cr2O3 hollow nanospheres [J] . Li Sheng, Li Feng-Li, Zhou Shao-Min, 中国物理：英文版 . 2009,第009期

机译：基于水热合成Cr2O3空心纳米球的高灵敏度室温气体传感器
3. Highly sensitive formaldehyde chemical sensor based on in situ precipitation synthesis of ZnSnO_3 microspheres [J] . Xiaohua Jia, Minggang Tian, Zhen Zhang, Journal of materials science . 2015,第8期

机译：基于ZnSnO_3微球原位沉淀合成的高灵敏度甲醛化学传感器
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Highly sensitive and selective room-temperature formaldehyde sensors using hollow TiO_2 microspheres

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