1. Printable Electronics
2. Design and Synthesis of Electronic Pastes (Copper pastes)
3. ElectrochromicDevices Fabricated by Printing Technique
Employment
Oct.2021-Present Senior Engineer Division of Nano-devices & Materials, SINANO, CAS
Sep. 2017-Oct.2021 Postdoctoral AKM (Suzhou) Industrial Company Limited
Jan. 2014-Sep. 2017 Postdoctoral Printable Electronics Research Center, SINANO, CAS
Education
Ph. D. 2014 Physical Chemistry SINANO, CAS
M. S. 2011 Polymer Chemistry and Physics Jinan University
B. S. 2008 Polymer Materials and Engineering Jinan University
1. Wu, X.; Chen, Z*.; Cui, Z*. Investigation of solution processable albumen-BaTiO3 nanocomposite and its application in high-k films. Composites Science and Technology 2013, 81, 48-53.
2. Wu, X.; Fei, F.; Chen, Z*.; Su, W.; Cui, Z*. A new nanocomposite dielectric ink and its application in printed thin-film transistors. Composites Science and Technology 2014, 94, 117-122.
3. Wu, X.; Shao, S.; Chen, Z.*; Cui, Z*. Printed highly conductive Cu films with strong adhesion enabled by low-energy photonic sintering on low-Tg flexible plastic substrate. Nanotechnology 2017, 28.
4. Wu, X.; Yuan, W.; Su, W.; Cui, Z*.; Zhu, S.; Deng, M. A simple process to create micro-gaps in printed copper electrodes by sintering induced stress in flexible PET substrates. Flexible and Printed Electronics 2021, 6.
5. He, W.; Huang, C.; Wu, X*.; Su, W*.; Cui, Z. All-in-one electrochromic transparency-tuning window with an integrated metal-mesh heating film. Flexible and Printed Electronics 2022, 7.
6. Huang, C.; Hu, Z.; Yi, Y.-Q.-Q.; Chen, X.; Wu, X.*; Su, W.*; Cui, Z. High performance printed organic electrochromic devices based on an optimized UV curable solid-state electrolyte. Nanoscale 2022.
