Dr Abhishek Singh Dahiya
- Research Associate (Electronic & Nanoscale Engineering)
Publications
2022
Yalagala, B. P., Dahiya, A. S. and Dahiya, R. (2022) ZnO nanowires based degradable high-performance photodetectors for eco-friendly green electronics. Opto-Electronic Advances, (Accepted for Publication)
Ma, S., Kumaresan, Y. , Dahiya, A. S. and Dahiya, R. (2022) Ultra-thin chips with printed interconnects on flexible foils. Advanced Electronic Materials, 8(5), 2101029. (doi: 10.1002/aelm.202101029)
Zumeit, A. A. S., Dahiya, A. S., Christou, A. and Dahiya, R. (2022) High performance p-channel transistors on flexible substrate using direct roll transfer stamping. Japanese Journal of Applied Physics, 61(SC), SC1042. (doi: 10.35848/1347-4065/ac40ab)
Dahiya, A. S., Zumeit, A., Christou, A. and Dahiya, R. (2022) High-performance n-channel printed transistors on biodegradable substrate for transient electronics. Advanced Electronic Materials, (doi: 10.1002/aelm.202200098) (Early Online Publication)
Dahiya, A. S., Christou, A., Neto, J., Zumeit, A., Shakthivel, D. and Dahiya, R. (2022) In tandem contact-transfer printing for high-performance transient electronics. Advanced Electronic Materials, (doi: 10.1002/aelm.202200170) (Early Online Publication)
Ma, S., Kumaresan, Y. , Dahiya, A. S., Lorenzelli, L. and Dahiya, R. (2022) Flexible tactile sensors using AlN and MOSFETs based ultra-thin chips. IEEE Sensors Journal, (doi: 10.1109/JSEN.2022.3140651) (Early Online Publication)
Kumaresan, Y. , Min, G., Dahiya, A. S., Ejaz, A. , Shakthivel, D. and Dahiya, R. (2022) Kirigami and mogul-patterned ultra-stretchable high-performance ZnO nanowires-based photodetector. Advanced Materials Technologies, 7(1), 2100804. (doi: 10.1002/admt.202100804)
2021
Min, G., Pullanchiyodan, A., Dahiya, A. S., Hosseini, E. S., Xu, Y. , Mulvihill, D. M. and Dahiya, R. (2021) Ferroelectric-assisted high-performance triboelectric nanogenerators based on electrospun P(VDF-TrFE) composite nanofibers with barium titanate nanofillers. Nano Energy, 90(Part A), 106600. (doi: 10.1016/j.nanoen.2021.106600)
Zumeit, A., Dahiya, A. S., Christou, A., Shakthivel, D. and Dahiya, R. (2021) Direct roll transfer printed silicon nanoribbon arrays based high-performance flexible electronics. npj Flexible Electronics, 5, 18. (doi: 10.1038/s41528-021-00116-w)
Shakthivel, D., Dahiya, A. S., Mukherjee, R. and Dahiya, R. (2021) Inorganic semiconducting nanowires for green energy solutions. Current Opinion in Chemical Engineering, 34, 100753. (doi: 10.1016/j.coche.2021.100753)
2020
Dahiya, A. S., Shakthivel, D., Kumaresan, Y. , Zumeit, A. A. S., Christou, A. and Dahiya, R. (2020) High-performance printed electronics based on inorganic semiconducting nano to chip scale structures. Nano Convergence, 7, 33. (doi: 10.1186/s40580-020-00243-6) (PMID:33034776)
Dahiya, A. S., Gil, T., Thireau, J., Azemard, N., Lacampagne, A., Charlot, B. and Todri-Sanial, A. (2020) 1D nanomaterial‐based highly stretchable strain sensors for human movement monitoring and human–robotic interactive systems. Advanced Electronic Materials, 6(10), 2000547. (doi: 10.1002/aelm.202000547)
Liu, F. , Dahiya, A. S. and Dahiya, R. (2020) A flexible chip with embedded intelligence. Nature Electronics, 3, pp. 358-359. (doi: 10.1038/s41928-020-0446-4)
Articles
Yalagala, B. P., Dahiya, A. S. and Dahiya, R. (2022) ZnO nanowires based degradable high-performance photodetectors for eco-friendly green electronics. Opto-Electronic Advances, (Accepted for Publication)
Ma, S., Kumaresan, Y. , Dahiya, A. S. and Dahiya, R. (2022) Ultra-thin chips with printed interconnects on flexible foils. Advanced Electronic Materials, 8(5), 2101029. (doi: 10.1002/aelm.202101029)
Zumeit, A. A. S., Dahiya, A. S., Christou, A. and Dahiya, R. (2022) High performance p-channel transistors on flexible substrate using direct roll transfer stamping. Japanese Journal of Applied Physics, 61(SC), SC1042. (doi: 10.35848/1347-4065/ac40ab)
Dahiya, A. S., Zumeit, A., Christou, A. and Dahiya, R. (2022) High-performance n-channel printed transistors on biodegradable substrate for transient electronics. Advanced Electronic Materials, (doi: 10.1002/aelm.202200098) (Early Online Publication)
Dahiya, A. S., Christou, A., Neto, J., Zumeit, A., Shakthivel, D. and Dahiya, R. (2022) In tandem contact-transfer printing for high-performance transient electronics. Advanced Electronic Materials, (doi: 10.1002/aelm.202200170) (Early Online Publication)
Ma, S., Kumaresan, Y. , Dahiya, A. S., Lorenzelli, L. and Dahiya, R. (2022) Flexible tactile sensors using AlN and MOSFETs based ultra-thin chips. IEEE Sensors Journal, (doi: 10.1109/JSEN.2022.3140651) (Early Online Publication)
Kumaresan, Y. , Min, G., Dahiya, A. S., Ejaz, A. , Shakthivel, D. and Dahiya, R. (2022) Kirigami and mogul-patterned ultra-stretchable high-performance ZnO nanowires-based photodetector. Advanced Materials Technologies, 7(1), 2100804. (doi: 10.1002/admt.202100804)
Min, G., Pullanchiyodan, A., Dahiya, A. S., Hosseini, E. S., Xu, Y. , Mulvihill, D. M. and Dahiya, R. (2021) Ferroelectric-assisted high-performance triboelectric nanogenerators based on electrospun P(VDF-TrFE) composite nanofibers with barium titanate nanofillers. Nano Energy, 90(Part A), 106600. (doi: 10.1016/j.nanoen.2021.106600)
Zumeit, A., Dahiya, A. S., Christou, A., Shakthivel, D. and Dahiya, R. (2021) Direct roll transfer printed silicon nanoribbon arrays based high-performance flexible electronics. npj Flexible Electronics, 5, 18. (doi: 10.1038/s41528-021-00116-w)
Shakthivel, D., Dahiya, A. S., Mukherjee, R. and Dahiya, R. (2021) Inorganic semiconducting nanowires for green energy solutions. Current Opinion in Chemical Engineering, 34, 100753. (doi: 10.1016/j.coche.2021.100753)
Dahiya, A. S., Shakthivel, D., Kumaresan, Y. , Zumeit, A. A. S., Christou, A. and Dahiya, R. (2020) High-performance printed electronics based on inorganic semiconducting nano to chip scale structures. Nano Convergence, 7, 33. (doi: 10.1186/s40580-020-00243-6) (PMID:33034776)
Dahiya, A. S., Gil, T., Thireau, J., Azemard, N., Lacampagne, A., Charlot, B. and Todri-Sanial, A. (2020) 1D nanomaterial‐based highly stretchable strain sensors for human movement monitoring and human–robotic interactive systems. Advanced Electronic Materials, 6(10), 2000547. (doi: 10.1002/aelm.202000547)
Liu, F. , Dahiya, A. S. and Dahiya, R. (2020) A flexible chip with embedded intelligence. Nature Electronics, 3, pp. 358-359. (doi: 10.1038/s41928-020-0446-4)