1.  国家自然科学基金面上项目：手性聚合物网络/胆甾相液晶复合材料的制备及宽波反射性能研究

2.       国家自然科学基金面上项目：基于扭曲晶界A相/胆甾相共存的液晶复合材料的制备及宽波反射性能研究

3.       国家自然科学基金面上项目：外场精确调控制备宽波段光屏蔽薄膜材料

4.       国家自然科学基金青年科学基金：具有光交联与光异构化作用的液晶光取向材料的制备及性能研究

5.       国家自然科学基金主任基金：基于具有光致异构作用的环状齐聚物的液晶光取向材料的制备及光取向行为的研究

6.       国家重点研发计划项目，重点专项，2018YFB0703703，液晶/高分子复合材料薄膜的结构定制

7.       国家自然科学基金面上项目：基于Ⅰ型反应的卟啉类光敏剂及其纳米金属有机框架的制备和性能研究

8.       国家自然科学基金面上项目：用于太赫兹波产生的有机非线性光学晶体材料的开发和性能研究

9.       纳米粒子-聚合物-蓝相液晶复合显示材料的制备及性能研究、国家自然科学基金

10.    具有快速光电响应的蓝相液晶显示材料的制备及性能研究、国家自然科学基金

11.    高分子分散蓝相液晶/纳米粒子显示材料的制备与电光性能研究、国家自然科学基金

12.    军品配套项目，2022-2023，**扩热板**（215万元），国家级课题，项目负责人；

13.    军品配套项目，2016-2019，**导热膜**（340万元），国家级课题，项目负责人；

14.    173课题，2021-2023，**石墨烯**（70万元），国家级课题，子项目负责人；

1.        Kainan Wang, Hu Wentuo, Wanli HE*, Yang Zhou, Cao Hui, Wang Dong,Li Yuzhan. Research Progress of Electrically Driven Multi-Stable Cholesteric Liquid Crystals [J]. Materials, 2024, 17(1): 136.

2.        Wentuo Hu, Wanli HE*, Wang Kainan, Zhang Changli, Yang Zhou, Li Yuzhan, Cao Hui,Wang Dong. A blue phase liquid crystal film based on an interpenetrating network and its sensitive humidity response performance [J]. Materials Advances, 2024, 5(5): 1930-1939.

3.        Rui-Juan Xiong, Ren Yun-Xiao, Cui Yong-Feng, Cai Shu-Feng, Wanli HE*, Yuan Xiao-Tao. High-Throughput Preparation and High-Throughput Detection of Polymer-Dispersed Liquid Crystals Based on Ink-Jet Printing and Grayscale Value Analysis [J]. Molecules, 2023, 28(5): 2253.

4.        Hao Wang, Zhou Huimin, Wanli HE*, Yang Zhou, Cao Hui, Wang Dong,Li Yuzhan. Research Progress on Blue-Phase Liquid Crystals for Pattern Replication Applications [J]. Materials, 2023, 16(1): 194.

5.        Huimin Zhou, Wang Hao, Wanli HE*, Yang Zhou, Cao Hui, Wang Dong,Li Yuzhan. Research Progress of Cholesteric Liquid Crystals with Broadband Reflection [J]. Molecules, 2022, 27(14): 4427.

6.        Yaqian Zhang, Wanli HE*, Cui Yongfeng, Zhang Lei, Li Yuzhan, Yang Zhou, Wang Dong,Cao Hui. Low voltage tunable cholesteric liquid crystal based on electrochemical process [J]. Liquid Crystals, 2022, 49(14): 1901-1911.

7.        Lei Zhang, Cui Yongfeng, Wang Qi, Zhou Huimin, Wang Hao, Li Yuzhan, Yang Zhou, Cao Hui, Wang Dong, Wanli HE*. Spatial Patterning of Fluorescent Liquid Crystal Ink Based on Inkjet Printing [J]. Molecules, 2022, 27(17): 5536.

8.        Ying Shi, Wanli HE*, YaQian Zhang, YongFeng Cui, Lei Zhang, Zhou Yang, YuZhan Li, Hui Cao,Dong Wang. Mesophase properties of fluorene-core mesogens and their effects on blue phase liquid crystals [J]. Liquid Crystals, 2022, 49(5): 679-689.

9.        Wanli HE*, Lei Zhang, Yongfeng Cui, Yaqian Zhang, Zhou Yang, Dong Wang, Hui Cao, and Yuzhan Li. Preparation and properties of water-responsive films with color controllable based on liquid crystal and poly(ethylene glycol) interpenetrating polymer network [J]. Liquid Crystals, 2022, 49(11): 1411-1419.

10.     Wanli HE*, Zhang Ya-Qian, Hu Wen-Tuo, Zhou Hui-Min, Yang Zhou, Cao Hui,Wang Dong. Ionic Chiral Ferrocene Doped Cholesteric Liquid Crystal with Electronically Tunable Reflective Bandwidth performance [J]. Materials, 2022, 15(24): 8749.

11.     Wanli HE*, Cui Yong-Feng, Luo Shi-Guang, Hu Wen-Tuo, Wang Kai-Nan, Yang Zhou, Cao Hui,Wang Dong. High-Throughput Preparation and Machine Learning Screening of a Blue-Phase Liquid Crystal Based on Inkjet Printing [J]. Molecules, 2022, 27(20): 6938.

12.     Wanli HE*, Yao Daipeng, Luo Shiguang, Xiong Ruijuan,Yuan Xiaotao. Broadband Reflective Liquid Crystal Films Prepared by Rapid Inkjet Printing and Superposition Polymerization [J]. Crystals, 2022, 12(4): 473.Liang Zeng, Zhao Yuzhen, Gao Hong, Wang Dong, Miao Zongcheng, Cao Hui, Yang Zhou, Wanli HE*. The relationship between crosslinker, liquid crystal, and magnetic nanomaterial doping on electro-optical properties of PDLC [J]. Liquid Crystals, 2021, 48(14): 2016-2026.

13.     Ren Lei, Wanli HE*, Wei Mei-Ju, Yao Dai-Peng, Luo Shi-Guang, Yang Zhou, Wang Dong,Cao Hui. Schiff base derivative doped chiral nematic liquid crystals with large wavelength shift driven by temperature and light [J]. Journal of Materials Chemistry C, 2020, 8(2): 561-566.

14.     Yijing Li, Lingze Zhang, Minghao Pang, Peipei Yang, Luming Guo, Kuo Zhang, Dayong Hou, Lei Wang*, Hao Wang*, Hui Cao*, Screened peptides from one-bead one-compound technique extend half-life of peptide drugs in circulation through binding to albumin[J], Chinese Chemical Letters, 2024, 35(3): 108530-1-108530-5.

15.     Kuo Zhang, Yuan Li, Bo Huang, Hui Cao*, Lei Wang*, Hao Wang*, “Live” Nanomaterials process biomimetic recognition and assembly in vivo[J], Small Science, 2023, 3(11): 2300032-1-2300032-9.

16.     Yijing Li, Jiaqi Wang, Wen Tian, Lu Han, Ting Xiao, Xiuhai Wu, Lei Wang, Peipei Yang*, Hui Cao*, Wanhai Xu*, Hao Wang*, An adhesive peptide specifically induces microtubule condensation[J], Materials Horizons, 2023, 10(11): 5298-5306.

17.     Hui Li, Jianjun Xu, Yunxiao Ren, Rui Han, He Song, Rui Huang, Xiao Wang, Lanying Zhang, Hui Cao*, Cheng Zou*, Huai Yang*, Preparation of highly durable reverse-mode polymer-stabilized liquid crystal films with polymer walls[J], ACS Applied Materials & Interfaces, 2023, 15(1): 2228-2236.

18.     Yijing Li, Lingze Zhang, Peipei Yang, Kuo Zhang, Xuefeng Gong, Dayong Hou, Hui Cao*, Xiaochun Wu, Ruiwu Liu, Kit S. Lam, Lei Wang*, Bioinspired screening of anti-adhesion peptides against blood proteins for intravenous delivery of nanomaterials[J], Nano Letters, 2022, 22(20): 8076-8085.

19.     Kuo Zhang, Yonghong Gao, Weishen Zhong, Hui Cao*, Kai Yue*, Lei Wang*, Hao Wang, Ca2+ accelerates peptide fibrillogenesis via a heterogeneous secondary nucleation pathway[J], Nanoscale, 2022, 14(10): 3899-3906.

20.     Kuo Zhang, Hui Zhang, Yonghong Gao, Jiaqi Wang, Yuan Li, Hui Cao*, Ying Hu*, Lei Wang*, A monotargeting peptidic network antibody inhibits more receptors for anti-angiogenesis[J], ACS Nano, 2021, 15(8): 13065-13076.

21.     Kuo Zhang, Hui Zhang, Xiaoran Zou, Ying Hu*, Dayong Hou, Jiaqi Fan, Chao Yang, Ziming Chen, Shifang Wen, Hui Cao*, Peipei Yang, Lei Wang*, An antibody-like peptidic network for anti-angiogenesis[J], Biomaterials, 2021, 275: 120900-1-120900-10.

22.     Kuo Zhang, Peipei Yang, Pingping He, Shifang Wen, Xiaoran Zou, Yu Fan, Ziming Chen, Hui Cao*, Zhou Yang, Kai Yue, Xinxin Zhang, Hua Zhang, Lei Wang*, Hao Wang*, Peptide-based nanoparticles mimic fibrillogenesis of laminin in tumor vessels for precise embolization[J], ACS Nano, 2020, 14(6): 7170-7180.

23.     Chenchen Gong, Jianming Zhao, Xiangdan Meng, Zhou Yang, Haifeng Dong, Engineering Cu-CuFe2O4 nanoenzyme for hypoxia-relief and GSH-depletion enhanced chemodynamic/sonodynamic therapy, Chemical Engineering Journal, 2022,435(2),135083

24.     Jinming Li, Xiaoyu Cui, Xia Yang, Yuting Qiu, Yuzhan Li, Hui Cao, Dong Wang, Wanli He, Yun Feng, Zhou Yang, Quantification of uric acid concentration in tears by using PDMS inverse opal structure surface-enhanced Raman scattering substrates: Application in hyperuricemia, SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY, 2022,278, 121326

25.     Xiaoyu Cui, Jinming Li, Xia Yang, Yuting Li, Mingyu Liu, Jinglong Qiao,, Dong Wang, Hui Cao, Wanli He, Yun Feng, Zhou Yang, Detection of glucose in diabetic tears by using gold nanoparticles and MXene composite surface-enhanced Raman scattering substrates, SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY, 2022,266, 120432

26.     Peng Wu, Lingyun Lou, Tianqi Xu, Jianming Zhao, Mingtan Hai, Dong Wang, Hui Cao, Wanli He, Zhou Yang, Epoxy Vitrimer Based on Temperature-Responsive Pure Organic Room Temperature Phosphorescent Materials, Chemistryselect, 2022, 7(10), e202104149

27.     Xia Yang, Hanjun Yang, Meng Su, Jianming Zhao, Xiangchuan Meng, Xiaotian Hu, Tangyue Xue, Zengqi Huang, Ying Lu, Yuzhan Li, Zhou Yang, Scalable Flexible Perovskite Solar Cells Based on a Crystalline and Printable Template with Intelligent Temperature Sensitivity, Solar RRL, 2022, 6(4), 2100991

28.     Jianming Zhao, Jirong Shi, Xiangdan Meng, Chenchen Gong, Peng Wu, Zhou Yang, Haifeng Dong, ROS-Activated nanoscale coordination polymers for enhanced ultrasound-me diate d therapy for the treatment of cancer,Acta Biomaterialia, 2022, 143,372-380

29.     Jiasheng Du, Jinming Li, Yuzhan Li, Dong Wang, Hui Cao, Wanli He, Zhou Yang, Acridine-based dyes as high-performance near-infrared Raman reporter molecules for cell imaging, Rsc Advances, 2022,12(6),3380-3385

30.     Shan Zhang, Juntao Wu, Jingang Liu, Zhou Yang, Guangsheng Wang, Ti3C2Tx MXene Nanosheets Sandwiched between Ag Nanowire-Polyimide Fiber Mats for Electromagnetic Interference Shielding, ACS APPLIED NANO MATERIALS, 2021, 4(12),13985

31.     Tianqi Xu, Peng Wu, Lingyun Lou, Yuzhan Li, Dong Wang, Hui Cao, Wanli He, Zhou Yang, Vitrimer enhanced carbazole-based organic room-temperature phosphorescent materials, New J Chem., 2021, 46(1), 276-281.

32.     Ying Lu, Qian Wang, Ruilin He, Foxin Zhou, Xia Yang, Dong Wang, Hui Cao, Wanli He, Feng Pan, Zhou Yang, Cheng Song, Highly Efficient Spin-Filtering Transport in Chiral Hybrid Copper Halides, Angew. Chem. Int. Edit., 2021, 60(44), 23578-23583.

33.     Lu, YF; Yang, DL; Gao, H; Du, X; Zhao, YZ; Wang, D; He, ZM; Miao, ZC; Cao, H; Yang, Z. Enhanced electro-optical properties of polymer-dispersed liquid crystals co-doped with fluorescent molecules and nanoparticles for multifunctional applications[J]. Chemical Engneering Journal, 2024, 485, 149654.

34.     Li, XJ; Wang, S; Wang, XF; Luan, Y; Wang, D; Du, X. Dual-propelled polydopamine@SiO2@Pt micromotor with asymmetrical yolk-mesoporous shell for the enhanced catalytic reduction[J]. Materials Today Chemistry. 2024, 35, 101916.

35.     Liu, XH; He, ZM; Li, CS; Miao, ZC; Wang, D; Luan, Y; Li, YZ; Zhao, YZ. Click chemically modified azobenzene derivatives and their third-order nonlinear optical properties[J]. Dyes and Pigments. 2023, 206, 110595.

36.     Zhao, F; Li, YZ; Gao, H; Tao, R; Mao, YQ; Chen, Y; Zhou, S; Zhao, JM; Wang, D. Design and Characterization of Deformable Superstructures Based on Amine-Acrylate Liquid Crystal Elastomers[J]. Advanced Science.2023, 10(36).

37.     Shi, ZH; He, ZM; Li, CS; Miao, ZC; Wang, D; Luan, Y; Li, YZ; Zhao, YZ. The role of nanomesh fibres loaded with BaTiO3 nanoparticles on the electro-optical performance of PDLC devices[J]. Applied Materials Today. 2022, 29, 101622.

38.     Gong, XF; Qi, GF; Li, YJ; Zhang, K; Gao, YH; Wang, D; Cao, H; Yang, Z; Wang, L. Self-assembly and cellular distribution of a series of transformable peptides[J]. Journal of Materials Chemistry B. 2022, 10(20), 3886-3894.

39.     Zhao, YZ; Zheng, JS; Zhao, Y; Ma, C; He, ZM; Zhang, HM; Duan, WY; Yao, RJ; Wang, D; Miao, ZC. Multi-field driven thermochromic films with phase change energy storage properties[J]. 2022, 208, 110759.

40.     Gong, XF; Li, YJ; Wang, D; Cao, H; Yang, Z; Wang, H; Wang, L. Process-biomimetic macromolecular materials for in vivo applications[J]. Progress in Materials Science. 2023, 131, 101015.

41.     Miao, ZC; Chen, XL; Zhang, YT; Wang, D; Wang, L. Bistable Cholesteric Liquid Crystal Films with Excellent Electro- Optical Performance and Spacing Stability for Reflective Displays[J]. ACS Applied Polymer Materials. 2022, 5 (1), 476-484.

42.     Miao, ZC; Jia, MM; Wang, D. Broad-wave reflection of doping double-layered nanofibers in polymer-stabilized cholesterol-based liquid crystal films [J]. Journal of Moleculars Liquids. 2022, 358, 119165.

专利：

[1]        曹晖，肖玲，王冬，等，利用紫外聚合协同作用制备宽波反射薄膜的方法及应用，专利号：ZL201510239852.0

[2]        曹晖，李二力，张冬冬，等，一种具有宽温域扭曲晶界A相液晶混合材料及其制备方法，专利号：ZL201810503291.4

[3]        曹晖，李二力，张冬冬，等，一种可见光屏蔽薄膜材料的制备方法，专利号：ZL201810748574.5

[4]        曹晖，张冬冬，赵丽敏，等，洗出/再填充技术制备单层胆甾相液晶薄膜的方法及应用，专利号：ZL201911043891.8

[5]        曹晖，赵立敏，甘萍，等，一种光热响应技术制备宽波反射胆甾相液晶薄膜的方法，专利号：ZL202011316168.5

[6]        曹晖，甘萍，赵立敏，等，一种纳米氧化锌薄膜扩散法制备宽波反射薄膜材料的方法，专利号：ZL202011316155.8

[7]        曹晖，张学涛，史玮婷，等，一种近红外光屏蔽薄膜材料、制备方法及应用，专利号：ZL202110699517.4

[8]        曹晖，张学涛，韩锐，等，一种宽波反射的柔性薄膜材料的制备方法及应用，专利号：ZL202210254748.9

[9]        曹晖，韩锐，张学涛，等，一种基于ZIFs双向扩散法制备宽波反射薄膜的方法，专利号：ZL202210254760.X

[10]     何万里、姚代鹏、罗时光. 一种聚合物稳定液晶材料的高通量喷墨打印制备方法. 2020, CN 202010982116.5.

[11]     何万里、石颖、杨洲. 一种含芴核弯曲型化合物的蓝相液晶复合材料的制备方法. 2020, ZL202011018102.8.

[12]     何万里、罗时光、姚代鹏、杨洲. 高通量检测蓝相液晶温域及电光性能的装置及其使用方法. 2020, ZL202010984099.9.

[13]     何万里，姚代鹏、罗时光. 一种喷墨打印制备宽波段反射胆甾相液晶薄膜的方法. 2020, ZL202011469527.0.

[14]     何万里，罗时光、姚代鹏、杨洲. 具有低阈值电压的纳米粒子蓝相液晶复合材料的制备方法. 2020, 202011469507.3.

[15]     何万里，王欣，杨洲，王冬，曹晖. 一种含非对称型弯曲分子的蓝相液晶复合材料的制备方法 2017, CN106566562A.

[16]     何万里，赵鹏，罗裕子，王冬，杨洲，曹晖. 一种基于层析原理的高效分离装置 2016, CN106621461B.

[17]     何万里，杨洲，张卫锴，王冬，曹晖. 一种含支链结构弯曲分子的蓝相液晶复合材料的制备方法. 2016, CN105505406B.

[18]     杨洲，邸晨晨，段金帅，钱细妹，曹晖，王冬，何万里，一类吖啶盐染料及其制备方法和应用, 2017/4/24，ZL 201710272172.8

[19]     杨洲，杨佳佳，邸晨晨，王冬，曹晖，何万里，以聚合物为衬底的柔性的表面增强拉曼基底的制备方法，2016/9/21， ZL 201610836976.1

[20]     杨洲，钟祥敏，潘冬，王冬，曹晖，何万里，水溶性好、吸收近红外的卟啉化合物及其制备方法和应用，2016/9/20， ZL 201610835797.6.