Thermally Activated Electric-Field Relay for Ultrafast and Stable NO2 Detection over Wide Temperature Range
Yucheng Ou, Bing Wang, Nana Xu, Quzhi Song, Tao Liu, Hui Xu, Fuwen Wang, Ming Zhang, Yingde Wang, Lei Liao

TL;DR
A new sensor design uses electric fields to detect NO2 quickly and stably across a wide temperature range.
Contribution
A thermally activated electric-field relay mechanism is introduced for ultrafast and stable NO2 detection.
Findings
The sensor achieves rapid response times within 12 seconds at both −50 and 800 °C.
The dual electric field mechanism ensures long-term stability over 75 days in extreme temperatures.
Abstract
Conventional metal oxide sensors often suffer from limited long-term stability over an ultrabroad temperature range, primarily due to their single-type active sites and a static electronic configuration. To overcome this limitation, we constructed a dual local electric field (LEF) with a graded electron concentration profile by precisely modulating the local chemical environment of CeO2. This design introduces a thermally activated electric-field switching mechanism, which enables ultrafast and stable response value toward NO2 detection from −50 to 800 °C. We demonstrate that at low temperatures, the divergent hybridization between Pt and Ce orbitals leads to a lower thermal activation energy for LEF-1 than for LEF-2. As temperature rises, electron migration from the 4f orbitals of Ce3+ to adjacent Ce4+ weakens LEF-1, whereas thermal activation promotes efficient electron transfer in…
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Taxonomy
TopicsGas Sensing Nanomaterials and Sensors · Advanced Memory and Neural Computing · Analytical Chemistry and Sensors
