Yujia Zhang
EPFL STI IEM BION
BM 3129 (Bâtiment BM)
Station 17
1015 Lausanne
+41 21 693 11 80
+41 21 693 79 57
Office: BM 3129
EPFL › STI › IEM › BION
Site web: https://www.epfl.ch/labs/bion
+41 21 693 79 57
EPFL › STI › STI-SMT › SMT-ENS
+41 21 693 79 57
EPFL › VPA › VPA-AVP-DLE › AVP-DLE-EDOC › EDMI-GE
Site web: https://go.epfl.ch/phd-edmi
Prix et distinctions
UK Parliamentary & Scientific Committee
2023
Chinese Academy of Sciences
2022
Chinese Institute of Electronics
2021
Chinese Academy of Sciences
2020
Publications représentatives
Neuromorphic iontronic devices based on soft ionic conductors
Li Wang, Yide Jiao, Hongjie Zhang, Yaqing Liu, Yujia Zhang, Peiyi Wu, Kai Xiao
Published in Chemical Society Reviews in 2025
Iontronic Devices from Biological Nanopores to Artificial Systems: Emerging Applications and Future Perspectives
Jiabei Luo, Antoine Remy, Yujia Zhang
Published in Chemical Reviews in 2025
Microscale Droplet Assembly Enables Biocompatible Multifunctional Modular Iontronics
Zhang Y, Tan C, Toepfer C, et al.
Published in Science, 2024, 386,1024-1030. in
A Microscale Soft Lithium-ion Battery for Tissue Stimulation
Zhang Y, Sun T, Yang X, et al.
Published in Nature Chemical Engineering, 2024, 1, 691–701. in
A microscale soft ionic power source modulates neuronal network activity
Zhang Y, Riexinger J, Yang X, et al.
Published in Nature, 2023, 620, 1001–1006. in
Enseignement et PhD
Doctorant·es actuel·les
Cours
MOOC: Micro and Nanofabrication (MEMS) - Fall
MICRO-621(a)
MOOC: Micro and Nanofabrication (MEMS) - Spring
MICRO-621(b)
Microfabrication technologies
MICRO-331
L'étudiant apprendra les procédés et les applications des technologies de micro- et nanofabrication modernes, tels qu'ils sont pratiqués dans une salle blanche, avec une focalisation sur les technologies à base du silicium, les microsystemes et des systemes a based the matériaux souples.