التفاصيل البيبلوغرافية
| العنوان: |
Ultrasensitive Molecular Sensors Based on Real‐Time Impedance Spectroscopy in Solution‐Processed 2D Materials. |
| المؤلفون: |
Moore, David C., Jawaid, Ali, Busch, Robert, Brothers, Michael, Miesle, Paige, Miesle, Adam, Rao, Rahul, Lee, Jonghoon, Beagle, Lucas K., Motala, Michael, Wallace, Shay Goff, Downing, Julia R., Roy, Ajit, Muratore, Christopher, Hersam, Mark C., Vaia, Richard, Kim, Steve, Glavin, Nicholas R. |
| المصدر: |
Advanced Functional Materials; 3/16/2022, Vol. 32 Issue 12, p1-8, 8p |
| مصطلحات موضوعية: |
IMPEDANCE spectroscopy, CHEMICAL detectors, DETECTORS, DETECTION limit, MOLYBDENUM disulfide |
| مستخلص: |
Chemical sensors based on solution‐processed 2D nanomaterials represent an extremely attractive approach toward scalable and low‐cost devices. Through the implementation of real‐time impedance spectroscopy and development of a three‐element circuit model, redox exfoliated MoS2 nanoflakes demonstrate an ultrasensitive empirical detection limit of NO2 gas at 1 ppb, with an extrapolated ultimate detection limit approaching 63 ppt. This sensor construct reveals a more than three orders of magnitude improvement from conventional direct current sensing approaches as the traditionally dominant interflake interactions are bypassed in favor of selectively extracting intraflake doping effects. This same approach allows for an all solution‐processed, flexible 2D sensor to be fabricated on a polyimide substrate using a combination of graphene contacts and drop‐casted MoS2 nanoflakes, exhibiting similar sensitivity limits. Finally, a thermal annealing strategy is used to explore the tunability of the nanoflake interactions and subsequent circuit model fit, with a demonstrated sensitivity improvement of 2× with thermal annealing at 200 °C. [ABSTRACT FROM AUTHOR] |
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| قاعدة البيانات: |
Complementary Index |
