FIELD DEPLOYMENT OF A NANOGAP GAS SENSOR FOR CROP DAMAGE DETECTION
- Authors
- Khan, Shakir-ul Haque; Karkhanis, Mohit; Hatasaka, Bryan; Tope, Sayali; Noh, Seungbeom; Dalapati, Rana; Bulbul, Ashrafuzzaman; Mural, Ravi, V; Banerjee, Aishwaryadev; Kim, KyeongHeon; Schnable, James C.; Ji, Mingyue; Mastrangelo, Carlos H.; Zang, Ling; Kim, Hanseup
- Issue Date
- 2022
- Publisher
- IEEE
- Keywords
- Gas sensor; crop damage; field demonstration; sorghum
- Citation
- 2022 IEEE 35TH INTERNATIONAL CONFERENCE ON MICRO ELECTRO MECHANICAL SYSTEMS CONFERENCE (MEMS), v.2022-January, pp 720 - 723
- Pages
- 4
- Indexed
- SCOPUS
- Journal Title
- 2022 IEEE 35TH INTERNATIONAL CONFERENCE ON MICRO ELECTRO MECHANICAL SYSTEMS CONFERENCE (MEMS)
- Volume
- 2022-January
- Start Page
- 720
- End Page
- 723
- URI
- https://scholarworks.gnu.ac.kr/handle/sw.gnu/2755
- DOI
- 10.1109/MEMS51670.2022.9699614
- ISSN
- 1084-6999
- Abstract
- This paper reports the first in-field detection of actual hexanal from the damaged sorghums using the field-deployed nano-gap gas sensor. The previously developed nano-gap gas sensor was fully integrated with electronics and wireless communication units into a portable prototype (10x10x7 cm(3)). The field deployed gas sensor prototype successfully detected the `scream' from the mechanically damaged sorghums by detecting a particular gas molecule, hexanal, released after the time point of 3.5 hours since the start of leaf cutting. The sensor prototype was pre-programmed to detect >100 ppm concentrations of hexanal in ambient air. After 1.5 hours since the cutting was stopped, the sensor prototype successfully recovered. The sorghum field testing conditions included a temperature (25 similar to 120 degrees C) and humidity (<= 70%RH). The detection demonstration clearly indicated that (1) a prototype successfully captured actual hexanal released from the damaged sorghums real-time and that (2) it was feasible to monitor a mechanically-stressed status of sorghums by gas monitoring.
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