论 文

[1]     Dan Chen, Yunming Wang, Helezi Zhou, Zhigao Huang, Yun Zhang, Chuan Fei Guo*, Huamin Zhou*. Current and future trends for polymer micro/nano processing in industrial applications. Advanced Materials, 2022, 34: 202200903.

[2]     Dan Chen, Lianwei Tang, Yunming Wang*, Yongyao Tan, Yue Fu, Weihao Cai, Zhaohan Yu, Shuang Sun, Jiaqi Zheng, Jingqiang Cui, Guosheng Wang, Yang Liu, and Huamin Zhou*. Speaking-induced charge-laden face masks with durable protectiveness and wearing breathability. ACS Applied Materials & Interfaces. 2022, 14(15): 17774-17782.

[3]     Dan Chen, Yunming Wang*, Yue Fu, Huamin Zhou*. Birefringence- and optical distortion-free isotropic polymer lens assisted by photonic microspheres. ACS Applied Materials & Interfaces. 2020, 12 (39): 44172-44179. 

[4]     Dan Chen, Ying Yao, Yunming Wang*, Yue Fu, Jiaqi Zheng and Huamin Zhou*. Integrated outstanding precision and mechanical performance of transparent 3D photonic crystal devices employing cross-linked nanospheres via thermoforming in a rubbery state. Journal of Materials Chemistry C. 2020, 8(9): 2993-2999.

[5]     Dan Chen, Yunming Wang*, Yue Fu, Huamin Zhou. Fabrication of transparent polymer optical device combined with selective visible-light transmission and zero-birefringence. Macromolecular Rapid Communications. 2020, 42: 202000462.

[6]     Yongyao Tan, Dan Chen, Yunming Wang*, Wei Wang, Lingjuan Xu, Rong Liu, Chunxiu You, Guigang Li*, Huamin Zhou, Dequn Li. Limbal bio-engineered tissue employing 3D nanofiber-aerogel scaffold to facilitate LSCs growth and migration. Macromolecular Bioscience. 2022, 22(5): 2100441. 

[7]     Tengfang Zhang, Dan Chen, Yun Zhang, Yunming Wang*, Huamin Zhou. Packing characteristics of sub-micron particles under van der Waals force and electrostatic force via discrete element method. Powder Technology. 2022, 407: 117668. 

[8]     Yanling Sun, Dan Chen, Yang Li, Shuang Sun, Jiaqi Zheng, Jingqiang Cui, Guosheng Wang, Li Zheng, Yunming Wang*, Huamin Zhou. High-performance green electronic substrate employing flexible and transparent cellulose films. Carbohydrate Polymers. 2021, 270: 118359.

[9]     Yue Fu, Yunming Wang*, Dan Chen, Zhaohan Yu, Jiaqi Zheng, Huamin Zhou. Three-dimensional photonic crystal bulks with outstanding mechanical performance assembled by thermoforming-etching cross-linked polymer microspheres. ACS Applied Materials & Interfaces. 2020, 12(31): 35311–35317. 

[10]   Yue Fu, Hu Zhao, Yunming Wang*, Dan Chen, Zhaohan Yu, Jiaqi Zheng, Shuang Sun, Weihao Cai, Huamin Zhou. Reversible photochromic photonic crystal device with dual structural colors. ACS Applied Materials & Interfaces. 2022, 14 (25): 29070–29076. 

[11]   Guancheng Shen, Wenjie Yu, Haiyu Qiao, Dan Chen, Yunming Wang*, Maoyuan Li, Yun Zhang*, Huamin Zhou. Measuring orientation dynamics of carbon fibers by dielectric anisotropy in shear flows. NDT and E International. 2022, 129: 102646.

[12]   Jiaqi Zheng, Zhaohan Yu, Yunming Wang*, Yue Fu, Dan Chen, Huamin Zhou. Acoustic core-shell resonance harvester for application of artificial cochlea based on the piezo-triboelectric effect. ACS Nano. 2021, 15(11): 17499-17507. 

[13]   Jiaqi Zheng, Yunming Wang*, Zhaohan Yu, Yue Fu, Dan Chen, Peng Zhao, Huamin Zhou*. Integrated nanospheres occupancy-removal and thermoforming into bulk piezoelectric and triboelectric hybrid nanogenerators with inverse opal nanostructure. Nano Energy. 2019, 64: 103957.

[14]   Zhaohan Yu, Yunming Wang*, Jiaqi Zheng, Shuang Sun, Yue Fu, Dan Chen, Weihao Cai, Dong Wang, Huamin Zhou*, Dequn Li. Fast-response bioinspired near-infrared light-driven soft robot based on two-stage deformation. ACS Applied Materials & Interfaces. 2022, 14(14): 16649-16657. 

[15]   Zhaohan Yu, Yongkang Zhang, Yunming Wang*, Jiaqi Zheng, Yue Fu, Dan Chen, Guosheng Wang, Jingqiang Cui, Shengrui Yu, Li Zheng*, Huamin Zhou, Dequn Li. Integrated piezo-tribo hybrid acoustic-driven nanogenerator based on porous MWCNTs/PVDF-TrFE aerogel bulk with embedded PDMS tympanum structure for broadband sound energy harvesting. Nano Energy. 2022, 97: 107205.

专 利

[1]     王云明，陈丹，高煌，周华民，张云，黄志高，周何乐子，李德群，余兆函，郑嘉琦，蔡微昊，唐炼炜. 一种能够自发产生静电的薄膜材料、其制备方法和应用. 中国，发明专利，ZL 202110304110.7. (学生一作)

[2]     王云明，黄志高，张云，陈丹，周华民，李德群.一种用于制备交联高分子聚合物材料的成形加工方法. 中国，发明专利，ZL 201711261988.7. (学生一作)

[3]     王云明，周华民，张云，黄志高，李德群，陈丹，符岳. Injection Molding Method For Fabricating Transparent Device. 美国，发明专利，PCT/CN2018/118846. (学生一作)

[4]     王云明，陈丹，高煌，周华民，张云，黄志高，周何乐子，符岳. 一种多孔薄膜以及多孔性医用防护用品的成形方法. 中国，发明专利，ZL 202110232457.5.

[5]     王云明，符岳，周华民，黄志高，李德群，张云，陈丹，赵虎. 一种碳晶电热膜及其制备方法、应用. 中国，发明专利，ZL 201911307092.7.

[6]     王云明，周华民，张云，黄志高，李德群，符岳，陈丹. 一种基于纳米复材制备不同结构色光子晶体制件的成形方法. 中国，发明专利，ZL 201811617219.0.

[7]     王云明，郑嘉琦，周华民，张云，黄志高，李德群，陈丹，符岳. 一种基于热压成型大规模制备反蛋白石结构材料的成型方法. 中国，发明专利，ZL 201910095410.1.

[8]     周华民，王云明，黄志高，李德群，张云，何诗桦，陈丹. 一种纤维复合材料结构件的 3D 打印成型方法. 中国，发明专利，ZL 201810048977.9.

[9]     王云明，周华民，胡诗尧，张云，黄志高，李德群，陈丹. 一种用于制备透明器件的注塑成形方法. 中国，发明专利，ZL 201711259640.4.

[10]   周华民，王云明，赵虎，李德群，黄志高，张云，符岳，陈丹. 一种可变彩虹色的液晶光子晶体材料及其制备方法. 中国，发明专利，ZL 201911307617.7.