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李宇翔副教授
2021-03-23  
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  李宇翔,男,1988年生,博士,西安科技大学材料学院副教授,硕士生导师。博士毕业于韩国国立釜山大学高分子化学专业,曾为韩国高丽大学化学系助理研究员,香港城市大学博士后。2017年获国家优秀自费留学生奖学金,2019年获国家“香江学者计划”项目。长期致力于有机光电材料与器件的研究工作,主要包括有机太阳能电池材料设计、合成与性能表征,新型水溶性绿色有机共轭材料的设计与开发,有机共轭高分子电解质(CPE)的设计、合成及应用(HTL/ETL),有机场效应/电化学晶体管电材料的设计与合成等,先后公开发表国内外高水平SCI论文20余篇,以第一作者/通讯作者发表论文15篇,其中中科院一区Top期刊论文14篇,分别收录于J. Am. Chem. Soc.,InfoMat, Adv. Funct. Mater., Chem. Engin. Journal, J. Mater. Chem. A, Sci. China Chem., Macromolecules, ACS Appl. Mater. Interfaces,ChemSusChem., J. Mater. Chem. C, Poly. Chem., etc.。所发表的研究成果受到了国内外同行的关注,受邀参加美国材料学会 (MRS) 3次,美国SPIE2015及国际ICSM2016会议各一次,并做学术报告。2018年入职西安科技大学,依托js1991金沙手机版下载成立校级有机光电材料研究所,研究团队包括副教授2名,研究生8名,与国内外高水平研究团队(香港城市大学,西安交通大学,苏州大学,陕西师范大学及韩国高丽大学,韩国先进科学研究院等)建立了紧密的合作交流关系。团队在学校及学院的大力支持及各类人才科研基金项目的资助下,公开发表国内外高水平高质量期刊论文8篇(均属Top期刊) ,培养已毕业研究生3名和本科毕业生20余名。

  

主要研究方向:

  1. 有机太阳能电池给/受体材料的设计、合成及光电性能表征

  2. 有机场效应/电化学晶体管材料的设计与合成

  3. 新型水溶性绿色有机共轭材料的设计与开发

  4. P-/N-型共轭高分子电解质(CPE)的设计、合成及应用(HTL/ETL)

  5. 高效有机热电材料的制备及应用

  

近些年主持(主要参与)科研基金项目:

  1. 2019年国家“香江学者计划”项目,XJ2019-026, 分子,聚合物和生物大分子自组装创造有机和无机功能材料的有序排列, 应用于光子学,光电子学,纳米医学和纳米技术, 2019.10-2021.10,结题,主持。

  2. 2018年陕西省高层次人才项目,高效有机光电材料设计、合成及光电性能研究,2019.01-2024.12,在研,主持。

  3. 陕西省自然科学基金-青年项目,2019JQ-244, 室内有机光伏材料的设计、合成及光电性能研究, 2019.01-2020.12, 结题,主持。

  4. 西安科技大学优秀青年科技基金项目,2019YQ3-03,喹喔啉-噻吩为基础的高分子材料设计、合成及室内光电性能研究,2019.01-2021.12,在研,主持。

  5. 西安科技大学高层次引进人才科研项目,有机光电材料的开发及性能研究,2018.05-2023.06,在研,主持。

  6. 西安科技大学博士启动金项目,2018QDJ019,有机光伏材料结晶性对室内光电性能的探索,2018.05-2020.05,结题,主持。

  7. 韩国国家自然科学基金项目,2016M1A2A2940911,P- and N-type Organic Materials with High Charge Mobility and Light Absorption,2013.09-2020.08,结题,参与。

  8. 韩国国家自然科学基金项目,2015R1D1A1A09056905,Development of Highly Efficient and Stable Organic Solar Cells,2015.08-2020.07,结题,参与。

  9. 韩国国家自然科学基金项目,2015M1A2A2057506,Enhancement of Devices Efficiency and Stability by Structural Optimization of Organic Crystalline Photovoltaic Materials,2015.11-2017.10,结题,主持。

  

近年发表论文:

  [1]H. Fu, Q. Fan, W. Gao, J. Oh, Y. Li, F. Lin, F. Qi, C. Yang, T. J. Marks, A. K.-Y. Jen*, “16.3% Efficiency Binary All-Polymer Solar Cells Enabled by a Novel Polymer Acceptor with an Asymmetrical Selenophene-Fused Backbone”, Sci. China Chem., 2021, 64, 1380-1388. (Impact Factor: 9.445, SCI一区, TOP)

  [2]Y. Kong, Y. Li*, J. Yuan, L. Ding*, “Polymerizing Small Molecular Acceptors for Efficient All-Polymer Solar Cells”, InfoMat, 2022, 1-8. (Impact Factor: 25.405, SCI一区, TOP)

  [3]Y. Li*, M. Wang, Q. Zhang, Z. Wu, H. Lim, Y. Wang, H. Qin*, J. Yang, C. Gao, H. Y. Woo, J. Yuan*, “Fine-tuned crystallinity of polymerized non-fullerene acceptor via molecular engineering towards efficient all-polymer solar cell”, Chem. Engin. J., 2022, 428, 131232. (Impact Factor: 13.273, SCI一区, TOP)

  [4]L. Jin, R. Ma, H. Liu, W. Xu, Z. Luo, T. Liu*, W. Su, Y. Li, R. Lu*, X. Lu*, H. Yan, B. Z. Tang, T. Yang*, “Boosting Highly Efficient Hydrocarbon Solvent-Processed All-Polymer-Based Organic Solar Cells by Modulating Thin-Film Morphology”, ACS Appl. Mater. Interfaces, 2021, 12, 29, 34301-34307. (Impact Factor: 9.229, SCI一区, TOP)

  [5]S. Li, X. Yuan, Q. Zhang, B. Li, Y. Li, J. Sun, Y. Feng, X. Zhang, Z. Wu, H. Wei, M. Wang, Y. Hu, Y. Zhang, H. Y. Woo, J. Yuan*, W. Ma*, “Narrow-Bandgap Single-Component Polymer Solar Cells with Approaching 9% Efficiency”, Adv. Mater., 2021, 2101295. (Impact Factor: 30.8498, SCI一区, TOP)

  [6]Q. Fan, R. Ma, T. Liu*, J. Yu, Y. Xiao, W. Su, G. Cai, Y. Li, W. Peng, T. Guo, Z. Luo, H. Sun, L. Hou, W. Zhu, X. Lu, F. Gao, E. Moons, D. Yu, H. Yan*, E. Wang*, “High-performance all-polymer solar cells enabled by a novel low bandgap non-fully conjugated polymer acceptor”, Sci. China Chem., 2021, 64, 1380-1388. (Impact Factor: 9.445, SCI一区, TOP)

  [7]W. Su, Y. Wang, Z. Yin, Q. Fan*, X. Guo, L. Yu*, Y. Li, L. Hou*, M. Zhang*, Q. Peng, Y. Li, E. Wang*, “13.4% Efficiency from All‐Small‐Molecule Organic Solar Cells Based on a Crystalline Donor with Chlorine and Trialkylsilyl Substitutions”, ChemSusChem., 2021, 14, 3535-3543. (Impact Factor: 8.928, SCI一区, TOP)

  [8]Y. Li, H. Fu, Z. Wu, X. Wu, M. Wang, H. Qin, F. Lin, H. Y. Woo*, A. K.-Y. Jen*, “Regulating the Aggregation of Unfused Non-Fullerene Acceptors via Molecular Engineering towards Efficient Polymer Solar Cells”, ChemSusChem., 2021, 14, 3579-3589. (Impact Factor: 8.928, SCI一区, TOP)

  [9]H. Fu, Y. Li*, J. Yu, Z. Wu, Q. Fan, F. Lin, H. Y. Woo, F. Gao, Z. Zhu, A. K.-Y. Jen*, “High Efficiency (15.8%) All-Polymer Solar Cells Enabled by a Regioregular Narrow Bandgap Polymer Acceptor”, J. Am. Chem. Soc., 2021, 143, 2665-2670. (Impact Factor: 15.419, SCI一区, TOP) (ESI高被引论文)

  [10]W. Gao, H. Fu, Y. Li, F. Lin, R. Sun, Z. Wu, X. Wu, C. Zhong, J. Min*, J. Luo, H. Y. Woo, Z. Zhu, A. K.-Y. Jen*, “Asymmetric Acceptors Enabling Organic Solar Cells to Achieve an over 17% Efficiency: Conformation Effects on Regulating Molecular Properties and Suppressing Nonradiative Energy Loss”, Adv. Energy Mater., 2021, 11, 2003177. (Impact Factor: 29.368, SCI一区, TOP)

  [11]Y. Li, Z. Jia, Q. Zhang, Z. Wu, H. Qin*, J. Yang, S. Wen, H. Y. Woo, W. Ma, R. Yang, J. Yuan*, “Toward Efficient All-Polymer Solar Cells via Halogenation on Polymer Acceptors”, ACS Appl. Mater. Interfaces, 2020, 12, 29, 33028-33038. (Impact Factor: 9.229, SCI一区, TOP)

  [12]H. Fu, W. Gao, Y. Li, F. Lin, X. Wu, J. H. Son, J. Luo, H. Y. Woo*, Z. Zhu*, A. K.-Y. Jen*, “A Generally Applicable Approach Using Sequential Deposition to Enable Highly Efficient Organic Solar Cells”, Small Methods, 2020, 4, 2000687. (Impact Factor: 14.188, SCI一区, TOP)

  [13]J. J. Sutton, Y. Li, H. S. Ryu, E. J. Tay, H. Y. Woo, K. C. Gordon*, “Fluorination Position: A Study of the Optoelectronic Properties of Two Regioisomers Using Spectroscopic and Computational Techniques”, J. Phys. Chem. A, 2020, 124, 7685-7691. (Impact Factor: 2.781, SCI二区)

  [14]H. Wei, Y. Liu, Z. Liu, J. Guo, P-A Chen, X. Qiu, G. Dai, Y. Li, J. Yuan*, L. Liao, Y. Hu*, “Effect of Backbone Fluorine and Chlorine Substitution on Charge-Transport Properties of Naphthalenediimide-Based Polymer Semiconductors”, Adv. Electron. Mater., 2020, 6, 1901241. (Impact Factor: 7.295, SCI一区)

  [15]Y. Li, M. Kim, Z. Wu, C. Lee, Y. W. Lee, J-W. Lee, Y. J. Lee, E. Wang, B. J. Kim*, H. Y. Woo*, “Influence of backbone modification of difluoroquinoxaline-based copolymers on the interchain packing, blend morphology and photovoltaic properties of nonfullerene organic solar cells”, J. Mater. Chem. C, 2019,7, 1681-1689. (Impact Factor: 7.393, SCI一区)

  [16]Y. Li, J. Lee, M. Kim, Y. Lee, B. J. Kim*, H. Y. Woo*, “Regioisomeric Wide-Band-Gap Polymers with Different Fluorine Topologies for Non-Fullerene Organic Solar Cells”, Polym. Chem., 2019,10, 395-402. (Impact Factor: 5.582, SCI一区)

  [17]S. Y. Park, Y. Li, J. Kim, T. H. Lee, B. Walker, H. Y. Woo*, J. Y. Kim*, “Alkoxybenzothiadiazole-based Fullerene and Nonfullerene Polymer Solar Cells with High Shunt Resistance for Indoor Photovoltaic Applications”, ACS Appl. Mater. Interfaces, 2018, 10, 3885-3894. (Impact Factor: 9.229, SCI一区, TOP)

  [18]Y. Xie, F. Yang, Y. Li, M. A. Uddin, P. Bi, B. Fan, Y. Cai, X. Hao, H. Y. Woo, W. Li, Y. Sun*, “Morphology Control Enables Efficient Ternary Organic Solar Cells”, Adv. Mater., 2018, 30, 1803045. (Impact Factor: 30.8498, SCI一区, TOP)

  [19]Y. Li, D. H. Lee, J. Lee, T. L. Nguyen, S. Hwang, M. J. Park, K. Choi, D. H. Choi*, H. Y. Woo*, “Two Regioisomeric π-Conjugated Small Molecules: Synthesis, Photophysical, Packing and Optoelectronic Properties”, Adv. Funct. Mater., 2017, 27, 271701942. (Impact Factor: 18.808, SCI一区, TOP)

  [20]Y. Li, S. Song, S.Y. Park, J.Y. Kim*, H.Y. Woo*, “Semi-crystalline photovoltaic polymers with siloxane-terminated hybrid side-chains”, Sci. China Chem., 2017, 4, 528-536. (Impact Factor: 9.445, SCI一区, TOP)

  [21]Y. Li, S.-J. Ko, S. Y. Park, H. Choi, T. L. Nguyen, M. A. Uddin, T. Kim, S. Hwang, J. Y. Kim*, H. Y. Woo*, “Quinoxaline-Thiophene Based Thick Photovoltaic Device with Efficiency of ~8%”, J. Mater. Chem. A, 2016, 4, 9967-9976. (Impact Factor: 12.732, SCI一区, TOP)

  [22]C. Lee, Y. Li, W. Lee, Y. Lee, J. Choi, T. Kim, C. Wang, E. Gomez, H. Y. Woo*, B. Kim*, “Correlation between Phase-Separated Domain Sizes of Active Layer and Photovoltaic Performances in All-Polymer Solar Cells”, Macromolecules, 2016, 49, 5051-5058. (Impact Factor: 5.985, SCI一区, TOP)

  [23]Y. Li, T. H. Lee, S. Y. Park, M. A. Uddin, T. Kim, S. Hwang, J. Y. Kim*, H. Y. Woo*, “Straight Chain D-A Copolymers Based on Thienothiophene and Benzothiadiazole for Efficient Polymer Field Effect Transistors and Photovoltaic Cells”, Polym. Chem., 2016, 7, 4638-4646. (Impact Factor: 5.582, SCI一区)

  [24]Y. Li, T. H. Lee, J. Kim, S. Y. Park, S. Song, S. Hwang, J. Y. Kim*, H. Y. Woo*, “Thiophene and Naphtho[1,2-c:5,6-c]bis[1,2,5]thiadiazole Based Alternating Copolymers for Polymer Solar Cells”, Journal of Photopolymer Science and Technology, 2016, 29, 553-559. (Impact Factor: 0.909, SCI四区)

  [25]H. Kang, M. A. Uddin, C. Lee, K.-H. Kim, T. L. Nguyen, W. Lee, Y. Li, C. Wang, H. Y. Woo*, B. J. Kim*, “Determining the Role of Polymer Molecular Weight for High-Performance All-Polymer Solar Cells: Its Effect on Polymer Aggregation and Phase Separation”, J. Am. Chem. Soc., 2015, 137, 2359-2365. (Impact Factor: 15.419, SCI一区, TOP)

  [26]D. T. T. Nguyen, T. Kim, Y. Li, S. Song, T. L. Nguyen, M. A. Uddin, S. Hwang, J.  Y. Kim*, H. Y. Woo*, “2,1,3-Benzothiadiazole-5,6-dicarboxylicimide Based Semi-crystalline Polymers for Photovoltaic Cells”, J. Polym. Sci. Part A: Polym. Chem., 2016, 54, 3826-3834. (Impact Factor: 2.930, SCI二区)

  [27]M. A. Uddin, N. G. An, Y. Li, S. Song, H. Ryu, J. Y. Kim*, H. Y. Woo*, “Synthesis and photovoltaic properties of three different types of terpolymers”, Mater. Chem. Front., 2017, 1, 1147-1155. (Impact Factor: 6.482, SCI一区, TOP)

  

国内外学术会议:

  [1] Y. Li, S. J. Ko, T. L. Nguyen, T. N. D.Thanh, J. Y. Kim and H. Y. Woo, “Quinoxaline-based low band gap polymers for photovoltaic cells”. 2014 秋季 美国材料学会 (MRS),波士顿, 美国, 2014.11. 30 ~ 2014.12. 06. (海报展示)

  [2] Y. Li, H. Y. Woo, “Conformation modulated Quinoxaline-based low band gap polymers with Non-covalent Coulomb interactionfor photovoltaic cells with efficiency of 8%”. 2015 国际光学工程学会 (SPIE),圣地亚哥,美国, 2015. 08. 08 ~ 2015. 08. 14. (海报展示)

  [3] Y. Li, T. H. Lee, S. Y. Park, J. Y. Kim and H. Y. Woo, “Semi-Crystalline Polymer with Linear and Planar Conformation via Non-Covalent Coulomb Interaction for Efficient Polymer Field Effect Transistors and Polymer Solar Cells”. 2016 国际合成金属会议 (ICSM),广州, 中国, 2016. 06. 26 ~ 2016. 07. 01 (海报展示)

  [4] Y. Li, T. H. Lee, S. Y. Park, J. Y. Kim and H. Y. Woo, “Semi-Crystalline Polymers with Linear and Planar Conformation for Efficient Polymer Field Effect Transistors and Polymer Solar Cells”. 2016 国际高分子新材料会议 (ICFPAM),大田市,韩国, 2016. 10. 31 ~ 2016. 11. 04. (口头报告)

  [5] Y. Li, C. Lee, B. J. Kim and H. Y. Woo, “Correlation between Phase-Separated Morphology of Active Layer and Photovoltaic Properties in All-Polymer Solar Cells”. 2017 春季 美国材料学会 (MRS),菲尼克斯, 美国. 2017. 04. 16 ~ 2017. 04. 21 (海报展示)

  [6] Y. Li, “2021全国高分子学术论文报告会”. 2021 秋季 中国化学会,北京, 中国. 2021. 09. 22 ~ 2021. 09. 26

  [7] Y. Li, “2021第四届光电材料与器件发展研讨会”. 2021年第四届光电材料与器件发展研讨会,广州, 中国. 2021. 11. 26 ~ 2021. 11. 28 (口头报告) 荣获2021第四届光电材料与器件发展研讨会-“科学探索奖”。硕士研究生孔雨欣同学获2021第四届光电材料与器件发展研讨会-“学术新锐奖”。

  

联系方式:

  通信地址:陕西省西安市雁塔中路58号西安科技大学煤炭科技大楼210室  邮编:710054

  课题组网址:

  E-mail:liyuxiang687@163.com  电话:+86-13429771396

  

课题组招生:

  欢迎有志于科学研究、认真勤奋的本科生/硕士研究生加入!优先考虑化学、材料、物理及电子等专业/学科背景,可直接与李宇翔老师联系!

 


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