刘伟 教授-尊龙凯时

刘伟 教授

个人简介

2019年于北京理工大学获得博士学位，师从张晓宏、董宇平教授；博士期间曾获国家留学基金委资助日本九州大学联合培养一年，师从第三代电致发光材料热活化延迟荧光（tadf）机制的开创者chihaya adachi教授；之后，先后于美国芝加哥大学王思泓教授团队与日本东京大学takao someya教授团队从事博士后研究，主要从事基于tadf机制的柔性可拉伸、可降解与可回收的oled材料与器件的研究，至今以第一/通讯作者在nature materials、nature sustainability等国际顶尖杂志上发表多篇研究论文，并授权多项美国和中国发明专利。2025年3月加盟苏州大学功能纳米与软物质研究院任特聘教授，博士生导师。入选国家级重点青年人才计划。

学术经历

2025-03 至今，苏州大学，功能纳米与软物质研究院，教授

2024-08 至 2025-02，日本东京大学，分子工程学院, jsps特殊研究员，导师：takao someya教授

2019-04 至 2024-03，美国芝加哥大学，分子工程学院，博士后，导师：王思泓教授

2016-10 至 2017-09，日本九州大学，化学与生物化学，联合培养博士，导师：chihaya adachi教授

2013-09 至 2019-03，北京理工大学，材料科学与工程，博士，导师：张晓宏教授、董宇平教授

2009-09 至 2013-06，海南大学，高分子材料与工程，学士，导师：廖双全教授

尊龙凯时的联系方式

邮箱：

地址：江苏省苏州市工业园区仁爱路199号（邮编215000），苏州大学独墅湖校区910楼202a室

研究方向

• 可拉伸有机光电器件

• 有机光电器件的绿色化、可持续发展

• 高性能光电材料与器件

招生&招聘：

本课题组的研究工作具有很强的学科交叉特点，欢迎具有不同学科背景的本科生、研究生和博士后到课题组学习、交流与访问。招生专业为“材料科学与工程”（080500）和“纳米科学与工程”（140600）。欢迎具有材料、化学、电子及其他相关专业的同学报考。请对课题组感兴趣的同学、同仁随时邮件联系wei6@suda.edu.cn

代表性论文(†co-first author)：

1. liu, w.†, zhang, c.†, alessandri, r., diroll, t. b., li, y, fan, x.-c, wang, k., cho, h., liu, y.-d., dai, y.-h., su, q., li, n., li, s.-s, wai, s., xu, j., zhang, x.-h, talapin, v. d., de pablo, j. j., & wang, s.-h. high-efficiency stretchable light-emitting polymers from thermally activated delayed fluorescence. nat. mater. 22, 737–745 (2023).

2. liu, w.†, wu, y.-k.†, vriza, k., zhang c., diroll, t. b., li, y., guo p. j., mei j.-g., wang, s.-h., & xu, j. depolymerizable and recyclable luminescent polymers with high light-emitting efficiencies. nat. sustain. 7, 1048–1056 (2024).

3. liu, w., wang, g., & wang, s.-h. intrinsically stretchable electroluminescent materials. ccs chem. 6, 1360–1379 (2024).

4. liu, w., chen, j.-x., zheng, c.-j., wang, k., chen, d.-y., li, f., dong, y.-p., lee, c.-s., ou, x.-m. & zhang, x.h. novel strategy to develop exciplex emitters for high-performance oleds by employing thermally activated delayed fluorescence materials. adv. funct. mater. 26, 2002-2008 (2016).

5. liu, w., chen, j.-x., zheng, c.-j., wang, k., chen, d.-y., li, f., dong, y.-p., lee, c.-s., ou, x.-m. & zhang, x.h. oleds: novel strategy to develop exciplex emitters for high-performance oleds by employing thermally activated delayed fluorescence materials. adv. funct. mater. 26, 2036 (2016).

6. liu, w., zheng, c. j., wang, k., zhang, m., chen, d. y., tao, s. l., li, f., dong, y. p., lee, c. s., ou, x. m. & zhang, x. h. high performance all fluorescence white organic light emitting devices with a highly simplified structure based on thermally activated delayed fluorescence dopants and host. acs appl. mater. interfaces 8, 3298432991 (2016).

7. liu, w., zheng, c. j., wang, k., chen, z., chen, d. y., li, f., ou, x. m., dong, y. p. & zhang, x. h. novel carbazolpyridine-carbonitrile derivative as excellent blue thermally activated delayed fluorescence emitter for highly efficient organic light-emitting devices. acs appl. mater. interfaces 7, 18930-18936 (2015).

8. liu, w.†, chen, z.†, zheng, c.-j., liu, x.-k., wang, k., li, f., dong, y.-p., ou, x.-m. & zhang, x.-h. a novel nicotinonitrile derivative as an excellent multifunctional blue fluorophore for highly efficient hybrid white organic light-emitting devices. j. mater. chem. c 3, 8817-8823 (2015).

9. zhang, m.†, liu, w.†, zheng, c. j., wang, k., shi, y. z., li, x., lin, h., tao, s. l. & zhang, x. h. tricomponent exciplex emitter realizing over 20% external quantum efficiency in organic light-emitting diode with multiple reverse intersystem crossing channels. adv. sci. 6, 1801938, (2019).

10. cai, j.-l.†, liu, w.†, wang, k., chen, j.-x., shi, y.-z., zhang, m., zheng, c.-j., tao, s.-l. & zhang, x.-h. highly efficient thermally activated delayed fluorescence emitter developed by replacing carbazole with 1, 3, 6, 8tetramethyl-carbazole. front. chem. 7, 17 (2019).

责任编辑：杨娟