陶冶

研究方向

研究方向一：动态共振有机半导体材料与器件

基于诺贝尔奖获得者Pauling提出的经典共振理论，利用共振体系真实电子状态在不同结构之间共振的动态调节特性，提出光电性质动态选择性调控概念（Angew. Chem. Int. Ed. 2013, 52, 10491），建立光电材料分子设计和功能的动态调控方法（J. Am. Chem. Soc. 2016, 138, 9655），创制了新型动态共振光电材料（J. Am. Chem. Soc. 2022. 144, 6946；Adv. Mater. 2018, 30, 1803856），详细探究了动态共振材料的光电性质及其对光电器件性能的影响。

研究方向二：刺激响应性有机长余辉材料

静态和动态有机光电材料相辅相成，发展具有动态响应特性的光电材料，有望赋予光电器件独特的性能，开拓器件应用研究领域的新视野，为研制高性能和新功能器件提供新途径。因此，我们发展了一种柔性链驱动的聚集耦合结构调控策略，研制了具有辐照增强/加热失活特性的手性有机长余辉材料，构建了新型的组合逻辑加密器件（Angew. Chem. Int. Ed. 2020, 59, 4756）；随后，为了进一步调控手性有机长余辉发光颜色，提出了手性簇晶体策略，在单一晶体中构建了具有不同尺寸的发色团，得益于聚集结构尺寸变化引起的激发态能级变化，首次研制了激发依赖的多彩手性有机长余辉材料（Nat. Commun. 2022, 13, 429）。 

承担的科研项目

[1]     国家自然科学基金委员会，面上项目，2021-01至2024-12，63万元，在研，主持；

[2]     江苏省教育厅，江苏特聘教授项目，2020-08至2023-08，100万元，在研，主持；

[3]     江苏省人力资源和社会保障厅，江苏省六大高峰人才项目，2019-07至2022-12，10万元，在研，主持；

[4]     国家自然科学基金委员会，青年项目，2018-01至2020-12，25万元，已结题，主持；

[5]     国家人力资源和社会保障部，博士后创新人才支持计划，2016-06至2018-06，60万元，已结题，主持；

[6]     南京市人力资源和社会保障局，2019-05至2020-05，3万元，已结题，主持；

[7]     江苏省教育厅，江苏省高等学校自然科学面上项目，2017-09至2019-08月，5万元，已结题，主持；

个人主页

https://www.x-mol.com/groups/iamtaoye

 教育及工作经历

2018.10-至今，南京邮电大学，材料科学与工程学院，教授

2016.10—2018.10，新加坡南洋理工大学，电气与电子工程学院，博士后

2010.09–2016.04，南京邮电大学，材料科学与工程学院，光学工程，博士

2006.09–2010.07，安徽理工大学，材料科学与工程学院，高分子材料与工程，学士

学术论文

[1]     Peng Hao, Xie Gaozhan, Cao Yang, Zhang Longyan, Yan Xi, Zhang Xiao, Miao Shihao, Tao Ye^*, Li Huanhuan, Zheng Chao, Huang Wei^*, Chen Runfeng^*, On-demand modulating afterglow color of watersoluble polymers through phosphorescence FRET for multicolor security printing, Science Advances, 2022, 15, eabk2925.

[2]     Li Hui, Gu Jie, Wang Zijie, Wang Juan, He Fei, Li Ping, Tao Ye^*, Li Huanhuan, Xie Gaozhan, Huang Wei^*, Zheng Chao, Chen Runfeng^*, Single-component color-tunable circularly polarized organic afterglow through chiral clusterization, Nature Communications2022, 13, 429.

[3]     Tao Ye^*, Liu Chang, Xiang Yuan, Wang Zijie, Xue Xudong, Li Ping, Li Huanhuan, Xie Gaozhan, Huang Wei, Chen Runfeng, Resonance-induced stimuli-responsive capacity modulation of organic ultralong room temperature phosphorescence,Journal of the American Chemical Society2022, 144(15), 6946-6953.

[4]     Li Hui, Li Huanhuan, Wang Wu, Tao Ye^*, Wang Shuang, Yang Qingqing, Jiang Yunbo, Zheng Chao, Huang Wei^*, Chen Runfeng^*. Stimuli-responsive circularly polarized organic ultralong room temperature phosphorescence. Angewandte Chemie International Edition, 2020,59(12): 4756.

[5]     Tao Ye, Chen Runfeng^*, Li Huanhuan, Yuan Jie, Wan Yifang, Jiang He, Chen Cailin, Si Yubing, Zheng Chao, Yang Baocheng, Xing Guichuan, Huang Wei^*, Resonance-activated spin-flipping for efficient organic ultralong room-temperature phosphorescence, Advanced Materials, 2018, 30(44): 1803856.

[6]     Li Huanhuan, Jin Jibiao, Xiang Yuan, Zhang Ying, Tao Ye^*, Li Mingguang, Xue Qin, Xie Guohua^*, Huang Wei, Chen Runfeng^*, Resonance hosts for high efficiency solution-processed blue and white electrophosphorescent devices, Science China Chemistry,2020, 63(11), 1645.

[7]     Xu Zhourui, Jiang Yihang, Shen Yuanyuan, Tang Lele, Hu Zulu, Lin Guimiao, Law Wing-cheung, Ma Mingze, Dong Biqin, Yong Ken-tye, Xu Gaixia, Tao Ye^*, Chen Runfeng^*, Yang Chengbin^*, A biocompatible photosensitizer with a high intersystem crossing efficiency for precise two-photon photodynamic therapy, Materials Horizons2022, DOI: 10.1039/D1MH01869H.

[8]     Yan Xi, Peng Hao, Xiang Yuan, Wang Juan, Yu Lan, Tao Ye^*, Li Huanhuan, Huang Wei^*, Chen Runfeng^*, Recent advances on host–guest material systems toward organic room temperature phosphorescence, Small2022, 18(1), 2104073.

[9]     Li Mingguang, Gao Huan, Yu Longsheng, Tang Senlin, Peng Ying, Zheng Chao, Xu Ligang, Tao Ye^*, Chen Runfeng^*, Huang Wei, Simultaneously enhancing efficiency and stability of perovskite solar cells through crystal cross‐linking using fluorophenylboronic acid, Small2021, 17(38), 2102090.

[10]  Li Huanhuan, Wang Yuzheng, Yu Lan, Liu Chang, Zhou Cefeng, Sun Sibing, Li Mingguang, Tao Ye^*, Xie Gaozhan, Xu Hui^*, Huang Wei, Chen Runfeng^*, V-shaped triazine host featuring intramolecular non-covalent interaction for highly efficient white electroluminescent devices, Chemical Engineering Journal2021, 425, 131487.

[11]  Li Hui, Li Huanhuan, Gu Jie, He Fei, Peng Hao, Tao Ye^*, Tian Dan, Yang Qingqing, Li Ping, Zheng Chao^*, Huang Wei, Chen Runfeng^*, Fluorine-induced aggregate-interlocking for color-tunable organic afterglow with a simultaneously improved efficiency and lifetime, Chemical Science, 2021, 12, 3580.

[12]  Xie Gaozhan, Wang Jiangchao, Cao Yang, Xue Xudong, Zhang Xiao, Liu Chang, Li Huanhuan^*, Tao Ye^*, Chen Runfeng, Phosphine sulfide-based bipolar host materials for blue phosphorescent organic light-emitting diodes, Molecules2021, 26(13), 4079.

[13]  Tang Lele, Zan Jie, Peng Hao, Yan Xi, Tao Ye^*, Tian Dan, Yang Qingqing, Li Huanhuan, Chen Qiushui, Huang Wei^*, Chen Runfeng^*, X-ray excited ultralong room-temperature phosphorescence for organic afterglow scintillators, Chemical Communications,2020, 56(88), 13559.

[14]  Tao Ye, Tang Lele, Wei Qi, Jin Jibiao, Hu Wenbo, Chen Runfeng, Yang Qingqing, Li Huanhuan, Li Ping, Xing Guichuan, Fan Quli, Zheng Chao, Huang Wei, Near-infrared-excitable organic ultralong phosphorescence through multiphoton absorption, Research,2020, 2020, 2904928.

[15]  Li Huanhuan, Zhi Yibin, Dai Yizhong, Jiang Yunbo, Yang Qingqing, Li Mingguang, Li Ping, Tao Ye^*, Li Hui, Huang Wei, Chen Runfeng^*. Asymmetric thermally activated delayed fluorescence materials with aggregation-induced emission for high-efficiency organic light-emitting diodes. Frontiers in Chemistry, 2020, 8: 49.

[16]  Li Huanhuan, Li Hui, Zhi Yibin, Wang Jun, Tang Lele, Tao Ye^*, Xie Guohua^*, Zheng Chao, Huang Wei, Chen Runfeng^*. Multiple σ–π Conjugated molecules with selectively enhanced electrical performance for efficient solution‐processed blue electrophosphorescence. Advanced Optical Materials, 2019, 7(24): 1901124.

[17]  Tao Ye, Koh Seewee, Yu Xuechao, Wang Chongwu, Liang Houkun, Zhang Ying, Li Hong^*, Wang Qijie^*. Surface group-modified MXene nano-flake doping of monolayer tungsten disulfides. Nanoscale Advances, 2019, 1(12): 4783-4789.

[18]  Li Huanhuan, Jiang Yunbo, Wang Jun, Zhi Yibin, Dai Yizhong, Tao Ye^*, Li Mingguang, Chen Runfeng^*, Zheng Chao, Huang Wei^*. High triplet energy phosphine sulfide host materials with selectively modulated electrical performance for blue electrophosphorescence. ACS Sustainable Chemistry & Engineering, 2019, 7(18): 15723-15728.

[19]  Chen Zhicai, Li Huanhuan, Tao Ye^*, Chen Lingfeng, Chen Cailin, Jiang He, Xu Shen, Zhou Xinhui^*, Chen Runfeng^*, Huang Wei. Tuning intramolecular conformation and packing mode of host materials through noncovalent interactions for High-Efficiency blue electrophosphorescence. ACS Omega, 2019, 4(5): 9129-9134.

[20]  Tao Ye, Yu Xuechao, Li Jiewei, Liang Houkun, Zhang Ying, Huang Wei, Wang Qijie^*, Bright monolayer tungsten disulfide via exciton and trion chemical modulations, Nanoscale, 2018, 10(14): 6294-6299.

[21]  Jin Jibiao, Tao Ye, Jiang He, Chen Runfeng^*, Xie Guohua^*, Xue Qin, Tao Chen, Jin Lu, Zheng Chao, Huang Wei^*, Star‐shaped boron‐containing asymmetric host materials for solution‐processable phosphorescent organic light‐emitting diodes, Advanced Science, 2018, 5(8): 1800292.共同一作

[22]  Li Huanhuan, Tao Ye, Chen Runfeng^*, Li Hui, Chen Lingfeng, Jiang Yunbo, Zheng Chao, Huang Wei^*, Cost-effective synthesis of carbazole/triphenylsilyl host materials with multiple σ-π conjugation for blue phosphorescent organic light-emitting diodes, Dyes and Pigments, 2018, 151: 187-193.共同一作

[23]  陶冶, 李欢欢, 陈润锋^*, 黄维, 苯基磷氧衍生物在蓝光有机电致发光器件中的应用, 中国材料进展, 2017, 36(06): 432-441.

[24]  Tao Ye, Xu Lijia, Zhang Zhen, Chen Runfeng^*, Li Huanhuan, Xu Hui^*, Zheng Chao, Huang Wei^*, Achieving optimal Self-Adaptivity for dynamic tuning of organic semiconductors through resonance engineering, Journal of the American Chemical Society, 2016, 138(30): 9655-9662.

[25]  Tao Ye, Guo Xin, Hao Lin, Chen Runfeng^*, Li Huanhuan, Chen Yuehua, Zhang Xinwen^*, Lai Wenyong^*, Huang Wei^*, A Solution-processed resonance host for highly efficient electrophosphorescent devices with extremely low efficiency roll-off, Advanced Materials, 2015, 27(43): 6939-6944.

[26]  Tao Ye, Yuan Kai, Chen Ting, Xu Peng, Li Huanhuan, Chen Runfeng^*, Zheng Chao, Zhang Lei, Huang Wei^*, Thermally activated delayed fluorescence materials towards the breakthrough of organoelectronics, Advanced Materials, 2014, 26(47): 7931-7958.

[27]  Tao Ye, Xiao Jianjian, Zheng Chao, Zhang Zhen, Yan Mingkuan, Chen Runfeng^*, Zhou Xinhui, Li Huanhuan, An Zhongfu, Wang Zhixiang, Xu Hui^*, Huang Wei^*, Dynamically adaptive characteristics of resonance variation for selectively enhancing electrical performance of organic semiconductors, Angewandte Chemie International Edition, 2013, 52(40): 10491-10495.

 专著

[1] Ye Tao, Runfeng Chen^*, Huanhuan Li, Chao Zheng, Wei Huang^*, Wiley-CH, Book chapter, 2018, ISBN: 9783527339006, 377-424. 

授权发明专利

[1]     陶冶，李慧，陈润锋，李欢欢，黄维，一种刺激响应型有机长余辉材料及其制备方法和应用，中国，ZL2020107339125

[2]     陶冶，项渊，陈润锋，许利刚，吕文轩，一种基于N-P=X共振结构的新型空穴传输材料的制备和应用，中国，ZL202110364584.0 

[3]     李欢欢，职怡缤，陶冶，陈润锋，蒋云波，基于咔唑单元为核心的新型芳基膦有机光电材料及其制备方法与应用，中国，ZL201910677228.7

[4]     陈润锋，黄维，陶冶，马力，一种含N-P=S共振结构的光电功能材料、制备方法及应用，2016，中国，ZL201410404987.3 

个人荣誉

[1]     2021江苏省高等学校科学技术研究成果奖一等奖

[2]     2020江苏特聘教授    

[3]     2020 江苏省科学技术奖二等奖

[4]     2019 “六大人才高峰”高层次人才    

[5]     2018 教育部高等学校科学研究优秀成果奖(科学技术)一等奖

[6]     2017 江苏省优秀博士毕业论文

[7]     2016 博士后创新人才支持计划

[8]     2015 第十四届“挑战杯”中航工业全国大学生课外学术科技作品竞赛一等奖

[9]     2015南京市第十一届自然科学优秀学术论文二等奖