28 citations as recorded by crossref.

1. Calibration methodology of low-cost sensors for high-quality monitoring of fine particulate matter M. Aix et al. 10.1016/j.scitotenv.2023.164063
2. A Low-Cost Calibration Method for Temperature, Relative Humidity, and Carbon Dioxide Sensors Used in Air Quality Monitoring Systems R. González Rivero et al. 10.3390/atmos14020191
3. First-Principles Algorithm for Air Quality Electrochemical Gas Sensors B. Ouyang 10.1021/acssensors.0c01129
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5. Reliability of Lower-Cost Sensors in the Analysis of Indoor Air Quality on Board Ships O. Schalm et al. 10.3390/atmos13101579
6. Field comparison of electrochemical gas sensor data correction algorithms for ambient air measurements Y. Liang et al. 10.1016/j.snb.2020.128897
7. Corrigendum to “An Improved Sensor Calibration with Anomaly Detection and Removal” [Sens. Actuators B: Chem. 307 (15 March) (2020) 127428] X. Fang & I. Bate 10.1016/j.snb.2020.128207
8. Evaluation of low-cost gas sensors to quantify intra-urban variability of atmospheric pollutants A. Baruah et al. 10.1039/D2EA00165A
9. Measurements of the Limit of Detection for Electrochemical Gas Sensors J. Saffell & N. Martin 10.1520/JTE20230675
10. A Global Multiunit Calibration as a Method for Large-Scale IoT Particulate Matter Monitoring Systems Deployments S. De Vito et al. 10.1109/TIM.2023.3331428
11. Assessment of the applicability of a low-cost sensor–based methane monitoring system for continuous multi-channel sampling I. Nagahage et al. 10.1007/s10661-021-09290-w
12. In situ drift correction for a low-cost NO2 sensor network J. Miech et al. 10.1039/D2EA00145D
13. Development of a Portable and Sensitive CO2 Measurement Device with NDIR Sensor Clusters and Minimizing Water Vapor Impact Z. Wu et al. 10.3390/su15021533
14. Machine learning combined with electrochemical sensor for rapid detection of Sudan Red I in food X. Sun et al. 10.1007/s11694-023-02150-w
15. Introduction to the special issue “In-depth study of air pollution sources and processes within Beijing and its surrounding region (APHH-Beijing)” Z. Shi et al. 10.5194/acp-19-7519-2019
16. Unravelling a black box: an open-source methodology for the field calibration of small air quality sensors S. Schmitz et al. 10.5194/amt-14-7221-2021
17. A lightweight low-cost and multipollutant sensor package for aerial observations of air pollutants in atmospheric boundary layer X. Pang et al. 10.1016/j.scitotenv.2020.142828
18. Characterizing the Aging of Alphasense NO2 Sensors in Long-Term Field Deployments J. Li et al. 10.1021/acssensors.1c00729
19. Rational design of hybrid sensor arrays combined synergistically with machine learning for rapid response to a hazardous gas leak environment in chemical plants W. Ku et al. 10.1016/j.jhazmat.2024.133649
20. Assessing the sources of particles at an urban background site using both regulatory instruments and low-cost sensors – a comparative study D. Bousiotis et al. 10.5194/amt-14-4139-2021
21. A low-cost air quality monitoring system based on Internet of Things for smart homes M. Taştan 10.3233/AIS-210458
22. Factors affecting variability in infiltration of ambient particle and gaseous pollutants into home at urban environment M. Hossain et al. 10.1016/j.buildenv.2021.108351
23. An Improved Sensor Calibration with Anomaly Detection and Removal X. Fang & I. Bate 10.1016/j.snb.2019.127428
24. Using Lidar technology to assess regional air pollution and improve estimates of PM2.5 transport in the North China Plain Y. Xiang et al. 10.1088/1748-9326/ab9cfd
25. Long-term behavior and stability of calibration models for NO and NO<sub>2</sub> low-cost sensors H. Kim et al. 10.5194/amt-15-2979-2022
26. A study on the performance of low-cost sensors for source apportionment at an urban background site D. Bousiotis et al. 10.5194/amt-15-4047-2022
27. Investigating the Sources of Urban Air Pollution Using Low-Cost Air Quality Sensors at an Urban Atlanta Site L. Yang et al. 10.1021/acs.est.1c07005
28. Development of a reliable measurement station for air quality monitoring based on low-cost sensors and active redundancy S. Poupry et al. 10.1016/j.ifacol.2022.07.631