李召岭副教授
发布时间: 2018-01-05

个人简介:

东华大学纺织工程专业博士毕业,现任纺织学院副教授、硕士生导师。中国纺织工程学会会员,中国化学会会员,中国纺织优秀博士学位论文获得者。曾在美国佐治亚理工学院交流访问19个月,主要从事天然纤维,纳米发电机,智能电子皮肤,智能可穿戴,吸波材料等方向研究。近五年在Energy Environmental Science, Advanced Materials,  Nano Energy, ACS Nano,  Nature Communications, AdvancedFunctional Materials等国际著名期刊发表高水平SCI论文32篇,IF4.0以上的有19篇,IF10.  以上的有14篇,单篇最高IF29.52,其中ESI高被引论文7篇,一区论文18篇。截止201712月,研究成果已被引用800余次(Google Scholar),单篇最高引用138次,H-index14,申请中国发明专利18个,其中已授权6个。很多研究成果受到国内外同行的广泛关注,产生积极社会反响。担任Nano Energy, Advanced Energy Materials, AdvancedFunctional Materials, Cellulose, Textile Research Journal等十几个SCI期刊的特约审稿人。

学习工作经历:

ll2016.10至今东华大学纺织学院副教授、硕导

ll2013.11-2015. 6美国佐治亚理工学院材料学博士联培

ll2012.9-2016.3东华大学纺织工程工学博士

ll2008.9-2011.6山东理工大学物理化学理学硕士

研究方向:

l摩擦纳米发电机与纳米能源

l自驱动可穿戴智能纺织品

l智能电子皮肤/柔性传感器

l高效宽频纤维基吸波材料

科研项目:

l主持国家自然科学基金青年基金项目多级粗糙半封闭孔道纳米纤维膜的可控制备及其摩擦发电机理研究” (51703022)

l主持纺织面料技术教育部重点实验室开放课题“基于纤维的柔性可穿戴纳米发电器件制备及应用”(KLTST201624)

l主持纤维材料改性国家重点实验室开放课题“基于纤维的人体机械能收集器件制备及应用”2017.1-2018.12

l主持东华大学青年教师启动资助项目“基于静电纺纤维的摩擦纳米发电机制备与性能调控”(271-10-0001226

l以项目第二负责人参与上海市科委优秀学术带头人计划项目“陶瓷纳米纤维材料的柔性弹性化设计及其机制研究”2018.5.1-2021.4.30

l参与国家重点研发计划项目“土工建筑增强材料制备与应用”第三课题“高强抗老化土工材料多重结构复合加工关键技术研究”(2016YFGX01021003)

l参与上海市教委科研创新计划重大项目“室内VOCs净化用高强度TiO2纳米纤维材料的可控制备及其强韧化机制研究”(15JC1400500)

参加国际会议:

lThe 2nd International Conference on Nanogenerators and Piezotronics, June 9-11, 2014. Atlanta, USA.

lThe 2nd International Conference on Nanoenergy and Nanosystems 2016 (NENS 2016), July 13-15, 2016. Beijing, China.

lInternational Conference on Hybrid Materials 2016 (ICHM2016), July 20-24, 2016. Jeonju, Korea.

l2016 China National Conference on Electrospinning (CICE 2016), November 18-20, 2016, Beijing, China.

lAnnual Report Meeting for Neo-Fiber Technology Project 2016-2017, March 16-17, 2017, Kyoto, Japan.

lChina National Conference on Electrospinning 2016(CICE 2016), November 18-20, 2016, Beijing, China.

lThe 14th Asian Textile Conference (ATC14): Disruptive Innovation for Textiles and Supply Chain. June 27-30, Hong Kong.

lThe 7th International Conference on Nanoscience & Technology, China 2017 (China NANO 2017), August 29-31, 2017, Beijing, China

l15th International Symposiumon Polymeric Materials. Bayreuth Polymer Symposium 2017(BPS17). September 17-19, 2017, Bayreuth, Germany.

lTwenty-Sixth International Conference on Processing and Fabrication of Advanced Materials (PFAM-XXVI). October 16 - 21, 2017, Chonbuk National University, Jeonju, Korea

l3rd International Conference on Nanoenergy and Nanosystems 2017 (NENS2017), October 21-23, Beijing, China

l2017 International Symposium on Functional Materials for Energy Storage and Conversion. October 26-29, 2017, Shanghai University, Shanghai, China.

SCI论文:

1. Z. Li, J. Chen, J. Yang, Y. Su, X. Fan, Y. Wu, C. Yu, Z. L. Wang*. β-cyclodextrin enhanced triboelectrification for self-powered phenol detection and electrochemical degradation. Energy & Environmental Science.2015, 8, 887896.(IF=29.52)

2. Z. Li, J. Chen, H. Guo, X. Fan, Z. Wen, M.-H. Yeh, C. Yu, X. Cao*, Z. L. Wang*. Triboelectrification enabled self-powered detection and removal of heavy metal ions in wastewater, Advanced Materials.2016, 28, 2983-2991.(IF=19.79)

3. Z. Li, J. Chen, J. Zhou, L. Zheng, K. C. Pradel, X. Fan,H. Guo, Z. Wen, M.-H. Yeh, Chongwen Yu*, Zhong Lin Wang*. High-efficiency ramie fiber degumming and self-powered degumming wastewater treatment using triboelectric nanogenerator. Nano Energy.2016, 22, 548-557. (IF=12.34)

4. Z. Li, J. Shen, I. Abdalla, J. Yu, B. Ding*. Nanofibrous Membrane Constructed Wearable Triboelectric Nanogenerator for High Performance Biomechanical Energy Harvesting. Nano Energy. 2017, 36, 341-348.(IF=12.34)

5. J. Shen, Z. Li(first co-author), J. Yu, B. Ding*. Humidity-Resisting Triboelectric Nanogenerator for High Performance Biomechanical Energy Harvesting. Nano Energy. 2017, 40, 282-288. (IF=12.343)

6. J. Chen, J. Yang, Z. Li(first co-author), X. Fan, Y. Zi, Q. Jing, H. Guo,Z. Wen, K. C. Pradel, S. Niu, Z. L. Wang*. Networks of Triboelectric Nanogenerators for Harvesting Water Wave Energy: A Potential Approach toward Blue Energy. ACS Nano. 2015, 9, 3324–3331.(IF=13.94)

7. Z. Li, C. Yu*. The Effect of Oxidation-reduction Potential on the Degumming of Ramie Fibers with Hydrogen Peroxide. Journal of the Textile Institute.2015, 106, 1251-1261.(IF=1.01)

8. Z. Li, C. Yu*. Effect of Peroxide and Softness Modification on Properties of Ramie Fiber. Fibers and Polymers.2014, 15, 2105-2111. (IF=1.11)

9. Z. Li, C. Meng, C. Yu*. Analysis of oxidized cellulose introduced into ramie fiber by oxidation degumming. Textile Research Journal. 2015, 85, 2125-2135. (IF=1.44)

10. Z. Li, C. Meng, J. Zhou,Z. Li, J. Ding, F. Liu, C. Yu*. Characterization and control of oxidized cellulose in ramie fibers during oxidative degumming. Textile Research Journal.2017, 87, 1828-1840. (IF=1.44)

11. J. Yang, J. Chen, Y. Su, Q. Jing, Z. Li, F. Yi, X. Wen, Z. Wang, Z. L. Wang*. Eardrum-Inspired Active Sensors for Self-Powered Cardiovascular System Characterization and Throat-Attached Anti-Interference Voice Recognition. Advanced Materials.2015, 27, 13161326.(IF=19.79)

12. X. Fan, J. Chen, J. Yang, P. Bai,Z. Li, Z. L. Wang*. Ultrathin, Rollable, Paper-Based Triboelectric Nanogenerator for Acoustic Energy Harvesting and Self-Powered Sound Recording. ACS Nano. 2015,9, 4236–4243. (IF=13.94)

13. J. Wang,  X. Li, Y. Zi, S. Wang, Z. Li, L. Zheng, F. Yi, S. Li, Z. L. Wang*. Flexible fiber-based supercapacitor-triboelectric nanogenerator power system for wearable electronics. Advanced Materials.2015, 27, 48304836.(IF=19.79)

14. Z. Wang, R. Yu, C. Pan,Z. Li, J. Yang, F. Yi, Z. L. Wang*. Light-induced pyroelectric effect as an effective approach for ultrafast UV nanosensing. Nature Communications.2015, 6, 8401. (IF=12.12)

15. H. Guo, J. Chen, M.-H. Yeh, X. Fan, Z. Wen,Z. Li, L. Lin, C. Hu, Z. L. Wang*. An ultra-robust high performance triboelectric nanogenerator based on charge replenishment. ACS Nano.2015,9, 5577-5584. (IF=13.94)

16. Z. Wen, J. Chen, M.-H. Yeh, H. Guo, Z. Li, X. Fan, T. Zhang, L. Zhu, Z. L. Wang*. Blow-Driven Triboelectric Nanogenerator as an Active Alcohol Breath Analyzer. Nano Energy. 2015, 16, 38–46.(IF=12.34)

17. M.-H. Yeh, H. Guo, L. Lin, Z. Wen, Z. Li, C. Hu, Z. L. Wang*. Rolling friction enhanced free-standing triboelectric nanogenerators and its applications in self-powered electrochemical recovery system. Advanced Functional Materials. 2016,26,1054-1062. (IF=12.12)

18. J. Chen, J. Yang, H. Guo, Z. Li, L. Zheng, Z. Wen, X. Fan, Z. L. Wang*. Automatic Mode Transition Enabled Robust Triboelectric Nanogenerators. ACS Nano. 2015, 9, 12334–12343. (IF=13.94)

19. Z. Li, Z. Li, R. Ding, C. Yu*. Composition of ramie hemicelluloses and effect of polysaccharides on fiber properties. Textile Research Journal2016,86,451-460. (IF=1.44) 

20. C.Meng, Z. Li, C. Wang, C. Yu*. Sustained-release Alkali Source Used in the Oxidation Degumming of Ramie. Textile Research Journal2017, 87, 1155-1164. (IF=1.44)

21. C. Meng, F. Liu, Z. Li, C. Yu*. The cellulose protection agent used in the oxidation degumming of ramie.Textile Research Journal.2016, 86, 1109-1118.(IF=1.44)

22. H. Jia, J. Zhu, Z. Li, X. Cheng, J. Guo*. Design and Optimization of a Photo-Thermal Energy Conversion Model Based on Polar Bear Hair. Solar Energy Materials and Solar Cells. 2017, 159, 345-351. (IF=4.78)

23. H. Jia, J. Zhu,Z. Li, J. Guo*. Optimization Design of Flexible Absorption Device for Solar Energy Application. e-Polymers. 2017, 17, 227-234.(IF=0.95)

24. L. Duan, W. Yu*, Z. Li. Analysis of structural changes in jute fibers after peracetic acid treatment. Journal of Engineered Fibers and Fabrics. 2017, 12,33-42. (IF=0.50)

25. X. Wang,L. Dou,Z. Li,L. Yang,J. Yu, B. Ding*. Flexible Hierarchical ZrO2 Nanoparticle-Embedded SiO2 Nanofibrous Membrane as A Versatile Tool for Efficient Removal of Phosphate. ACS Applied Materials & Interfaces. 2016, 8,34668–34676. (IF=7.50)

26. J. Ge, J. Zhang, F. Wang, Z. Li, J. Yu, B. Ding. Superhydrophilic and underwatersuperoleophobic nanofibrous membrane with hierarchical structured skin for effective oil-in-water emulsion separation. Journal of Materials Chemistry A. 2017,5, 497–502. (IF=8.87)

27. S. Zhang, H. Liu, X. Yin,Z. Li, J. Yu, B. Ding*. Tailoring Mechanically Robust Poly(m-phenylene isophthalamide) Nanofiber/nets for Ultrathin High-Efficiency Air Filter. Scientific Report. 2017, 7, 40550. (IF=4.26)

28. D. K. Debeli,J. Guo*, Z. Li, J. Zhu, L. Ni. Treatment of ramie fiber with different techniques: the influence of diammonium phosphate on interfacial adhesion properties of ramie fiber-reinforced polylactic acid composite. Iranian Polymer Journal. 2017, 26, 341-354. (IF=1.42)

29. X. Li*, Z. Li, X. Dang, D. Luan, F. Wang, C. Wang, H. Wang. Structural and thermal property changes of plasticized spinning polyacrylonitrile fibers under different spinning speeds. Journal of Applied Polymer Science.2017, 134, 45267.(IF=1.86)

30. H.Jia, J.Zhu, D.K.Debeli,Z. Li, J.Guo*. Solar thermal energy harvesting properties of spacer fabric composite used for transparent insulation materials. Solar Energy Materials and Solar Cells.2018, 174, 140-145. (IF=4.784)

31. J. Zhou, Z. Li, C. Yu*. Property of Ramie Fiber Degummed with Fenton Reagent.Fibers and Polymers. 2017, 18, 1891-1897. (IF=1.022)

32. C. Meng, Z. Li, C. Wang, C. Yu*. Extraction of Ramie Fiber in Alkali Hydrogen Peroxide System Supported by Controlled-release Alkali Source. Journal of Visualized Experiments. 2017(in press). (IF=1.232)

英文书籍:

lZ. Li, M. Zhu, I. Abdalla, J. Yu, B. Ding*. “Morphology and Structure of Electrospun Nanofibrous Materials” in Editor Yanbo Liu, Ce Wang, “Advanced Nanofibrous Materials Manufacture Technology Based on Electrospinning”, 2017, CRC Press-Taylor & Francis Group.

授权发明专利

1. 李召岭,孟超然,郁崇文,李世刚,黄卫平,杨建平,张斌. 一种提高氧化脱胶苎麻精干麻物理机械性能的方法,授权号:ZL 201310152516.3

2. 李召岭,郁崇文,杨建平,李世刚,黄卫平,张元明.一种苎麻纤维制备与化学改性同浴进行的方法,授权号:ZL 201310153380.8

3. 李召岭,郁崇文,赵强,杨建平,张斌,李世刚,黄卫平.一种氧化脱胶多次分步投料制备苎麻纤维的方法,授权号:ZL 201310153378.0

4. 李召岭,刘凤明,孟超然,郁崇文,白洋,臧英明.一种基于氧化还原电位调控的制备苎麻纤维的方法,授权号:ZL 201410156559.3

5. 李召岭,关赛鹏,张弘强,张一帆,郁崇文.一种苎麻纳米纤维素疏水化改性的方法,授权号:ZL 201410217597.5

6. 李召岭,郭营,王辉,郁崇文.一种改性苎麻纳米纤维素与聚乳酸复合薄膜的制备方法,授权号:ZL 201410217621.5

7. 李召岭,孟超然,李可欣,郁崇文,白洋,臧英明.一种用苎麻精干麻制备微纤化纳米纤维素的方法,授权号: ZL 201410157427.2

8. 李召岭,周佳佳,孟超然,郁崇文,杨建平,丁金花,刘凤明.一种苎麻氧化脱胶过程中氧化纤维素生成的调控方法,授权号: ZL 201510552462.9

国际交流与合作

与美国佐治亚理工学院,中科院北京纳米能源与系统研究所保持紧密科研合作关系。

联系信息

办公室:纺织学院楼4047

电话:021-62379904/67792634

邮箱:zli@dhu.edu.cn