Sulfate-functionalized hafnium-organic frameworks as a highly effective chemiresistive sensor for low-temperature detection of hazardous NH3 gas
- Authors
- Dang, Minh-Huy Dinh; Navale, Sachin T.; Yang, Dong Hoon; Kim, Jin-Young; Nguyen, Linh Ho Thuy; Mai, Ngoc Xuan Dat; Phan, Thang Bach; Kim, Hyoun Woo; Doan, Tan Le Hoang; Kim, Sang Sub
- Issue Date
- Sep-2022
- Publisher
- Elsevier B.V.
- Keywords
- Gas sensor; Hf-organic framework; NH3 sensing; Sulfate-functionalization; Surface area
- Citation
- Sensors and Actuators B: Chemical, v.367, pp.1 - 11
- Indexed
- SCIE
SCOPUS
- Journal Title
- Sensors and Actuators B: Chemical
- Volume
- 367
- Start Page
- 1
- End Page
- 11
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/191173
- DOI
- 10.1016/j.snb.2022.132094
- ISSN
- 0925-4005
- Abstract
- This study proposes a solvothermal method for synthesizing sulfate-functionalized hafnium-organic frameworks (Hf-BTC-SO4) for application in low-temperature NH3 gas sensors. Prior to the gas-sensing studies, solvothermal-processed Hf-BTC-SO4 is characterized using various techniques to obtain structural, elemental, morphological, and thermal stability information. Results of structural and thermal-stability analysis demonstrate that Hf-BTC-SO4 exhibits good crystallinity and high thermal stability with the functionalization of SO4 in the Hf-framework. Microstructural analysis reveals that nanoparticles aggregated to form compact clusters of Hf-BTC-SO4. In addition, Hf-BTC-SO4 has an ultra-high specific surface area of 1100 m2g−1 (with a pore size of 15 Å), suitable for gas detection owing to enhanced surface reactions. Gas-sensing studies confirm that the fabricated Hf-BTC-SO4 sensor exhibits selective detection of NH3 gas at a lower working temperature of 100 ºC. Notably, the Hf-BTC-SO4 sensor detected up to 1 ppm of NH3 (response = 1.41), with excellent response reversibility. The functionalized sulfate bonds and Hf-clusters within the framework form strong bonds with NH3, enhancing their interaction with the metal-organic frameworks. This study can motivate future research on the synthesis of functional organic frameworks for applications in low-temperature NH3 detection devices.
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