期刊
SENSORS AND ACTUATORS B-CHEMICAL
卷 355, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.snb.2021.131294
关键词
Formaldehyde; Yolk-shell; ppb-level; MOF-derived ZnO; UV excitation
This research successfully achieved ppb-level detection of formaldehyde at room temperature using the MOF-derived ZnO structure, showing superb sensing performance. The synergistic effect of yolk-shell design and UV irradiation allowed for high sensitivity detection of formaldehyde at low temperature.
The ppb-level detection at room temperature, urgently demanded in application, is such a promising and challenging technology for formaldehyde sensing. This research has achieved the yolk-shell structural Zn-MOF and MOF-derivates via adjusting the ratio of metal ions to organic-ligand in solvothermal process and subsequent calcination. Under the synergistic effect of yolk-shell MOF-derived structure and assistance of UV irradiation of 8.31 mW/cm(2), the sensors exhibit superb sensing performance to formaldehyde even at room temperature about 20 degrees C, i.e., the response/ recovery time and sensitivity of MOF-derived ZnO are respectively 6 s/22 s and similar to 14.05-100 ppm formaldehyde. More notably, the detection limit is as low as 100 ppb. The relevant mechanism is summarily interpreted as follows: (i) Yolk-shell structure MOF-derived ZnO with mesoporous provides affluent oxygen vacancies and excellent adsorption capacity; (ii) UV radiation produces the electron-hole pairs to increase intra-grain conductivity and facilitate the capture of oxygen ions at room temperature.
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