Sensors, Biosensors and Bioelectronics

Sensors are essential for many applications. Soft and flexible sensors that can conform to the shape and contour of the human body is of great interest for developing various type of biomedical sensors. Further, bioelectronic devices that can seamlessly integrate with human tissues are highly desirable for advanced prosthetics and implantable electronics. In addition to being soft and flexible, bioelectronic devices must be biocompatible, have the same mechanical properties as human tissues and should be able to transduce signals from tissues to electronics signals and vice versa. Understanding material properties, device physics and intelligent device designs are crucial for developing innovative biomedical sensors and bioelectronic devices.

Sensor_round

Publications

  1. Arthur, J.N.; Cole, C.M.; Pandey, A.K.; Yambem, S.D.; Stable crosslinked gate electrodes for hygroscopic insulator OTFT sensors Journal of Materials Chemistry C (2021)98169-8178. 10.1039/D1TC00862E
  2. Singh, A.; Eftekhari, E.; Scott, J.; Kaur, J.; Yambem, S.D.; Leusch, F.; Wellings, R.; Gould, T.; Ostrikov, K.; Sonar, P.; Li, Q.; Carbon Dots Derived from Human Hair for ppb Level Chloroform Sensing in Water Sustainable Materials and Technologies (2020) 25, e00159. https://doi.org/10.1016/j.susmat.2020.e00159
  3. Yambem, S.D.; Burns, S.; Arthur, J.N.; Timm, J.; Woodruff, M.A.; M; Pandey, A.K.; Marschall, A highly porous and conductive composite gate electrode for OTFT sensors, RSC Advances (2019), 9(13): 7278-7284. 10.1039/C9RA00148D
  4. Yambem, S.D.; Weiss, M; Pandey, A.K.; Marschall, R.; Sulphonated mesoporous silica as proton exchanging layer in solid-state organic transistors Advanced Electronic Materials (2017), (2017), 3(12): 1700316. https://doi.org/10.1002/aelm.201700316

For full list of publications, check publications.