General

Xuemin Du, Ph. D

Professor, CAS

xm.du@siat.ac.cn

Research Areas

Stimuli-responsive polymers; Photonic crystals; Smart biomaterials; Soft electronics; Neural interfaces; Tissue engineering; Millirobots.


Publications

1. Yunlong Wang, Qilong Zhao, Huanqing Cui, Xuemin Du*, Chameleon-inspired structural color actuators, Matter, 2019, 1, 626.

2. Lidong Zhang*, Panče Naumov, Xuemin Du*, Zhigao Hu, Juan Wang, Vapomechanically responsive motion of microchannel-programmed actuators, Advanced Materials, 2017, 29, 1702231.

3. Xuemin Du#*, Huanqing Cui#, Tiantian Xu#, Chenyang Huang, Yunlong Wang, Qilong Zhao, Yangsheng Xu, Xinyu Wu*, Reconfiguration, camouflage and color-shifting for bioinspired adaptive hydrogel-based millirobots, Advanced Functional Materials, 2019, 1909202.

4. Qilong Zhao, Juan Wang, Huanqing Cui, Hongxu Chen, Yunlong Wang, Xuemin Du*, Programmed shape-morphing scaffolds enabling facile 3D endothelialization, Advanced Functional Materials, 2018, 28, 1801027.

5. Yunlong Wang, Qilong Zhao, Xuemin Du*, Inkless multi-color writing and copying of laser-programmable photonic crystals, Materials Horizons, 2020, 7, 1341.

6. Qilong Zhao#, Juan Wang#, Yunlong Wang, Huanqing Cui, Xuemin Du*, A Stage-specific cell manipulation platform for on-demand inducing endothelialization, National Science Review, 2020, 7, 629.

7. Xuemin Du#*, Huanqing Cui#, Qilong Zhao, Juan Wang, Hongxu Chen, Yunlong Wang, Inside-out 3D reversible ion-triggered shape-morphing hydrogels, Research, 2019, 2019, 6398296.

8. Qilong Zhao#, Huanqing Cui#, Yunlong Wang, Xuemin Du*, Microfluidic platforms towards rational material fabrication for biomedical applications, Small, 2020, 1903798.

9. Juan Wang, Qilong Zhao, Huanqing Cui, Yunlong Wang, Hongxu Chen, Xuemin Du*, Tunable shape memory polymer mold for multiple microarray replications, Journal of Materials Chemistry A, 2018, 6, 24748.

10. Hongxu Chen#, Lulu Wang#, Yi Lu*, Xuemin Du*, Bioinspired microcone-array-based living biointerfaces: enhancing the anti-inflammatory effect and neuronal network formation, Microsystems & Nanoengineering, 2020, DOI: 10.1038/s41378-020-0172-0.