Arrays of Functionalized Graphene Chemiresistors for Selective Sensing of Volatile Organic Compounds
Natalia Alzate‐Carvajal, Jae‐Woo Park, Ilhem Bargaoui, Ranjana Rautela, Zachary J. Comeau, Lukas Scarfe, Jean‐Michel Ménard, Seth B. Darling, Benoît H. Lessard, Adina Luican‐Mayer
Abstract
Real-time detection of volatile organic compounds (VOCs) is being spotlighted for its importance in environmental monitoring and disease detection from the breath. However, the selective detection of VOCs in a small form factor gas sensor remains a challenge. Here, we present the VOC sensing performance of phthalocyanine (Pc)-functionalized graphene chemiresistors supported by the theoretical prediction of Pc’s VOC interactions. Pc functionalization, with and without metalation, was studied parametrically with varying deposition parameters to explore impacts on the gas sensing response toward VOCs as a function of substrate coverage. Sensing data were collected to establish fingerprint signatures for a variety of VOCs. Improvement in selectivity is shown by successfully differentiating the VOCs from each other when combined into a gas sensor array tested with acetone, ethanol, formaldehyde, and toluene.