Room-Temperature Sensing of Volatile Organic Compounds Using Graphene
Künye
ŞEN, Zafer, Sadullah ÖZTÜRK, Mika HARBECK & Zafer Ziya ÖZTÜRK. "Room-Temperature Sensing of Volatile Organic Compounds Using Graphene". Sensors and Materials, 31.4 (2019): 1365–1374.Özet
Graphene-based sensors are mostly studied in terms of their responses to inorganic gases
such as various nitrogen oxides or ozone. In this work, chemically derived graphene (CDG)
is assessed in terms of its gas sensing properties at room temperature for a selected set of
volatile organic compounds (VOCs) representing different chemical classes. CDG was
coated on gold interdigital electrodes on a glass substrate by drop casting. Structural and
morphological analyses were realized by surface electron microscopy and energy-dispersive
X-ray spectroscopy techniques. Among the nine test analytes, the highest sensor sensitivities
were observed for chlorobenzene, tetrachloroethylene, and triethylamine. The results show that
CDG sensors are not only sensitive to rather reactive inorganic gases, but can also be used in
the detection of a wide range of VOCs.