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Highly Selective Ammonia Detection in NiO‐Functionalized Graphene Micropatterns for Beef Quality Monitoring

Seungsoo Kim, Yeonhoo Kim, Jae Hyun Kim, Seung Ju Kim, Taehoon Kim, Jaegun Sim, Sang Eon Jun, Jiheon Lim, Tae Hoon Eom, Hyeong Seok Lee, Gwan‐Hyoung Lee, Byung Hee Hong, Mi‐Hwa Oh, Yun Suk Huh, Ho Won Jang

2024Advanced Functional Materials30 citationsDOIOpen Access PDF

Abstract

Abstract Graphene has emerged as one of the most promising materials for next‐generation gas sensor platforms due to its high flexibility, transparency, and hydrophobicity. However, graphene shows inherent low selectivity in gas sensing. This has led to extensive development of noble‐metal decoration on graphene to modulate its surface chemistry for enhanced selectivity. While noble metals such as Pt, Pd, and Au have widely been employed to functionalize graphene surface, non‐noble metal decoration of graphene has remained underexplored. Here, an unprecedented room‐temperature self‐activated graphene gas sensor functionalized by NiO nanoparticles and its application to wearable devices monitoring ammonia gas in daily life are demonstrated. NiO‐functionalized graphene micropatterns show ultra‐high selectivity to ammonia with a low detection limit of 2.547 ppt. Density functional theory (DFT) calculations reveal that the strong attraction between NiO and NH 3 induced by charge depletion and the vertex region of NiO accelerate the adsorption of NH 3 molecules. Furthermore, a wearable graphene device demonstrates the capability to detect ammonia emissions from beef, triggering an alarm call when a specific threshold is exceeded. This work proposes the functionalization of graphene with transition metal oxides, extending beyond the conventional noble metal decoration, and the potential utilization of the graphene for wearable devices.

Topics & Concepts

Materials scienceGrapheneAmmoniaNon-blocking I/ONanotechnologyQuality (philosophy)Organic chemistryCatalysisEpistemologyPhilosophyChemistryGas Sensing Nanomaterials and SensorsAnalytical Chemistry and SensorsAdvanced Sensor and Energy Harvesting Materials