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成果及论文

代表性论文 

1.Qizeng Sun, Fei Liang, Guozhang Ren, Shunhao He, Kun Gao, Zhongyan Gong, Yulong Zhang, Xing Kang, Chengcheng Zhu, Yaxin Song, Huixiang Sheng, Gang Lu*, Hai-dong Yu*, Wei Huang*. Density-of-state matching-induced ultrahigh current density and high-humidity resistance in a simply structured triboelectric nanogenerator. Advanced Materials 2023, 35, 2210915.

2.Zengyu Hui, Linrong Zhang, Guozhang Ren, Gengzhi Sun*, Hai-dong Yu*, Wei Huang*. Green flexible electronics: natural materials, fabrication and applications Advanced Materials 2023, DOI: 10.1002/adma.202211202.

3.Yuewen Wei, Xuewen Shi, Zhuoqi YaoJiacai Zhi, Lixuan Hu, Chuanqian Shi*, Hai-dong Yu*, Wei Huang*.Fully paper-integrated hydrophobic and air permeable piezoresistive sensors for high-humidity and underwater wearable motion monitoring. npj Flex. Electron. 2023, accepted.

4.Xuewen Shi, Yuewen Wei, Ren Yan, Lixuan Hu, Jiacai Zhi, Biao Tang, Yijia Li, Zhuoqi Yao, Chuanqian Shi*, Hai-Dong Yu*, Wei Huang*. Leaf surface-microstructure inspired fabrication of fish gelatin-based triboelectric nanogenerator. Nano Energy 2023, 109, 108231.

5. Lixuan Hu, Pei Lin Chee, Sigit Sugiarto, Yong Yu, Chuanqian Shi, Ren Yan, Zhuoqi Yao, Xuewen Shi, Jiacai Zhi, Dan Kai, Hai-Dong Yu*, Wei Huang*. Hydrogel-based flexible electronics. Advanced Materials 2022, Accepted Author Manuscript 2205326.

6. Zhuoqi Yao,  Philip Coatsworth,  Xuewen Shi,   Jiacai Zhi,   Lixuan Hu,   Ren Yan,   Firat Güderb*  and  Hai-Dong Yu*. Paper-based sensors for diagnostics, human activity monitoring, food safety and environmental detection. Sens. Diagn. 2022,1, 312-342.

7. Q. Z. Sun, L. Wang, X. P. Yue, L. R. Zhang, G. Z. Ren, D. H. Li, H. C. Wang, Y. J. Han, L. L. Xiao, G. Lu*, H. D. Yu*, Wei Huang*. Fully sustainable and high-performance fish gelatin-based triboelectric nanogenerator for wearable movement sensing and human-machine interaction. Nano Energy 2021, 89, 106329.

8. J. C. Cao, Q. Chen, X. S. Wang, Q. Zhang, H. D. Yu*, Xiao Huang*, Wei Huang*. Recent development of gas sensing platforms based on 2D atomic crystals. Research 2021, 9863038.

9. H. C. Wang, R. C. Zhou, D. H. Li, L. R. Zhang, G. Z. Ren, L. Wang, J. H. Liu, D. Y. Wang, Z. H. Tang, G. Lu*, G. Z. Sun*, H. D. Yu*, Wei Huang*. High-performance foam-shaped strain sensor based on carbon nanotubes and Ti3C2Tx MXene for the monitoring of human activities. ACS Nano 2021, 14, 9690-9700.

10. X. P. Zhang, T. Y. Ye, X. H. Meng, Z. H. Tian, L. H. Pang, Y. J. Han, H. Li, G. Lu, F. Xiu, H. D. Yu*, J. Q. Liu*, W. Huang*. Sustainable and transparent fish gelatin films for flexible electroluminescent devices. ACS Nano 202014, 3876-3884.

11. X. Y. Guo, L. J. Zong, Y. C. Jiao, Y. F. Han, X. P. Zhang, J. Xu, L. Li, C. W. Zhang, Z. P. Liu, Q. Ju, J. H. Liu*, Z. H. Xu*, H. D. Yu*, W. Huang*. Signal-enhanced detection of multiplexed cardiac biomarkers by a paper-based fluorogenic immunodevice integrated with zinc oxide nanowires. Anal. Chem. 201991, 9300-9307.

12.  Z. H. Guo, Y. C. Jiao, H. L. Wang, C. Zhang, F. Liang, J. L. Liu, H. D. Yu*, C. M. Li*, G. Zhu*, Z. L. Wang*. Self-powered electrowetting valve for instantaneous and simultaneous actuation of paper-based microfluidic assays. Adv. Funct. Mater. 201929, 1808974.

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13.  L. Gao, L. F. Chao, M. H. Hou, J. Liang, Y. H. Chen*, H. D. Yu*, W. Huang*. Flexible, transparent nanocellulose paper-based perovskite solar cells. npj Flex. Electron. 20193, 4.

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14. Y. J. Han, Y. F. Han, X. P. Zhang, G. Lu, H. D. Yu*, W. Huang*. Fish gelatin-based triboelectric nanogenerator for harvesting biomechanical energy and self-powered sensing of human physiological signals. ACS Appl. Mater. Interfaces 202012, 16442.

15. Y. C. Jiao, C. Du, L. J. Zong, X. Y. Guo, Y. F. Han, X. P. Zhang, L. Li, C. W. Zhang, Q. Ju, J. H. Liu*, H. D. Yu*, W. Huang*. 3D vertical-flow paper-based device for simultaneous detection of multiple cancer biomarkers by fluorescent immunoassay. Sensor. Actuat. B-Chem. 2020306, 127239.

16. L. Gao, C. X. Zhu, L. Li, C. W. Zhang, J. H. Liu*, H. D. Yu*, W. Huang*. All paper-based flexible and wearable piezoresistive pressure sensor. ACS Appl. Mater. Interfaces 201911, 25034-25042.


17. M. R. Wu, Q. Y. Lai, Q. Ju, L. Li*, H. D. Yu*, W. Huang*. Paper-based fluorogenic devices for in vitro diagnostics. Biosens. Bioelectron. 2018102, 256-266

18. A. Nemiroski, S. L. Soh, S. W. Kwok, H. D. Yu, G. M. Whitesides. Tilted magnetic levitation enables measurement of the complete range of densities of materials with low magnetic permeability. J. Am. Chem. Soc. 2016138, 1252-1257.

19. A. B. Subramaniam, D. Yang, H. D. Yu, A. Nemiroski, S. Tricard, A. K. Ellerbee, S. L. Soh, G. M. Whitesides. Noncontact orientation of objects in three dimensional space using magnetic levitation. Proc. Natl. Acad. Sci. USA 2014111, 12980-12985.
20. H. D. Yu, M. D. Regulacio, E. Y. Ye, M. Y. Han. Chemical routes to top-down nanofabrication. Chem. Soc. Rev. 201342, 6006-6018.
21. H. D. Yu, Z. P. Zhang, M. Y. Han. Metal corrosion for nanofabrication. Small 20128, 2621-2635.
22. H. D. Yu, D. P. Yang, D. S. Wang, M. Y. Han. Top-down fabrication of calcite nanoshoot arrays by crystal dissolution. Adv. Mater. 201022, 3181-3184.
23. H. D. Yu, D. S. Wang, M. Y. Han. Perpendicular branching in crystal growth of 3D architecture-tuned cadmium hydroxide arrays: from oriented tripods to faceted crystals. Adv. Mater. 200820, 2276-2279.
24. H. D. Yu, D. S. Wang, M. Y. Han. Top-down solid-phase fabrication of nanoporous cadmium oxide architectures. J. Am. Chem. Soc. 2007129, 2333-2337.
25. H. D. Yu, Z. P. Zhang, M. Y. Han, X. T. Hao, F. R. Zhu. A general low-temperature route for large-scale fabrication of highly oriented ZnO nanorod/nanotube arrays. J. Am. Chem. Soc. 2005127, 2378-2379.