A. Turfanda And H. Ünlü, "Single atom precise, ultrafast, and universal emulation of biological synapses using atomically thin vertical heterostructures," Journal of Applied Physics , vol.132, no.12, 2022
Turfanda, A. And Ünlü, H. 2022. Single atom precise, ultrafast, and universal emulation of biological synapses using atomically thin vertical heterostructures. Journal of Applied Physics , vol.132, no.12 .
Turfanda, A., & Ünlü, H., (2022). Single atom precise, ultrafast, and universal emulation of biological synapses using atomically thin vertical heterostructures. Journal of Applied Physics , vol.132, no.12.
Turfanda, Aykut, And Hilmi Ünlü. "Single atom precise, ultrafast, and universal emulation of biological synapses using atomically thin vertical heterostructures," Journal of Applied Physics , vol.132, no.12, 2022
Turfanda, Aykut And Ünlü, Hilmi. "Single atom precise, ultrafast, and universal emulation of biological synapses using atomically thin vertical heterostructures." Journal of Applied Physics , vol.132, no.12, 2022
Turfanda, A. And Ünlü, H. (2022) . "Single atom precise, ultrafast, and universal emulation of biological synapses using atomically thin vertical heterostructures." Journal of Applied Physics , vol.132, no.12.
@article{article, author={Aykut Turfanda And author={Hilmi Ünlü}, title={Single atom precise, ultrafast, and universal emulation of biological synapses using atomically thin vertical heterostructures}, journal={Journal of Applied Physics}, year=2022}