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High sensitive gas sensors realized by a transfer-free process of CVD graphene., , , , , и . IEEE SENSORS, стр. 1-3. IEEE, (2016)Investigation on the Sensing Properties at Room Temperature of a Graphene/SnO2 Nanocomposite Towards CO2., , , , , , , и . AISEM, том 999 из Lecture Notes in Electrical Engineering, стр. 34-39. Springer, (2022)Inkjet Printed Graphene-Based Chemiresistive Sensors to NO2., , , , , , , и . Sensors, том 431 из Lecture Notes in Electrical Engineering, стр. 111-118. Springer, (2016)Study of a Low Cost and Wearable Gas Sensor for Safety of Workers and Workplaces., , , , , , , , и . AISEM, том 918 из Lecture Notes in Electrical Engineering, стр. 153-159. Springer, (2021)Quartz Crystal Microbalance Study in Controlled Environment for Particulate Matter Sensing., , , , и . AISEM, том 999 из Lecture Notes in Electrical Engineering, стр. 129-134. Springer, (2022)Chemoresistors Based on MoS2 for Humidity Sensing., , , и . AISEM, том 918 из Lecture Notes in Electrical Engineering, стр. 160-166. Springer, (2021)A Wearable Low-Power Sensing Platform for Environmental and Health Monitoring: The Convergence Project., , , , , , , , , и 13 other автор(ы). Sensors, 21 (5): 1802 (2021)An innovative approach to overcome saturation and recovery issues of CVD graphene-based gas sensors., , , , , и . IEEE SENSORS, стр. 1-3. IEEE, (2017)A Networked Wearable Device for Chemical Multisensing., , , , , , , , , и 2 other автор(ы). Sensors, том 539 из Lecture Notes in Electrical Engineering, стр. 17-24. Springer, (2018)Effect of Humidity on the Hydrogen Sensing in Graphene Based Devices., , , , и . Sensors, том 539 из Lecture Notes in Electrical Engineering, стр. 11-16. Springer, (2018)