@article{20, keywords = {2D Particle Synthesis for Photothermal Cancer Therapy}, author = {Farman Ullah and Khaled Ibrahim and Kissan Mistry and Abdus Samad and Ahmed Shahin and Joseph Sanderson and Kevin Musselman}, title = {WS2 and WS2-ZnO Chemiresistive Gas Sensors: The Role of Analyte Charge Asymmetry and Molecular Size}, abstract = {
We investigate the interaction of various analytes (toluene, acetone, ethanol, and water) possessing different structures, bonding, and molecular sizes with a laser-exfoliated WS2 sensing material in a chemiresistive sensor. The sensor showed a clear response to all analytes, which was significantly enhanced by modifying the WS2 surface. This was achieved by creating WS2-ZnO heterojunctions via the deposition of ZnO nanoparticles on the WS2 surface with a high-throughput, atmospheric-pressure spatial atomic layer deposition system. Water and ethanol produced a much higher response compared to acetone and toluene for both the WS2 and WS2-ZnO sensing mediums. We resolved that the charge-asymmetry points in analyte molecules play a key role in determining the sensor response. High charge-asymmetry points correspond to highly polar bonds (HPBs) in a neutral molecule that have a high probability of interaction with the sensing medium. Our results indicate that the polarity of the HPBs primarily dictates the interaction between the analyte and sensing medium and consequently controls the response of the sensor. Moreover, the size of the analyte molecule was found to affect the sensing response; if two molecules have the same HPBs and are exposed to the same sensing medium, the smaller molecule is likely to produce a higher and faster response. Our study provides a comprehensive picture of analyte–sensor interactions that can help in advancing semiconductor gas sensors, including those based on two-dimensional materials.
}, year = {2023}, journal = {ACS sensors}, volume = {8}, chapter = {1630-1638}, month = {2023/3/16}, url = {https://pubs.acs.org/doi/full/10.1021/acssensors.2c02762}, }