凌盛杰课题组介绍
Principal Investigator |
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2004.9-2009.6, B.S. in Zhejiang University of Technology, China
2009.9-2014.6, Ph.D. in Polymeric Chemistry and Physics, Fudan University
2012.11-2013.8, Visiting Ph.D. student (CSC joint Ph.D. Programme). Department of Health Sciences and Technology, ETH Zürich (Switzerland).
2014.9-2017.9, Postdoc, MIT, USA (Supervisor/Advisor: Markus J. Buehler)
2017.9-now, Assistant Professor, Principal Investigator, School of Physical Science and Technology (SPST), ShanghaiTech University, China.
Research |
研究组以生物大分子、天然结构材料和材料生物学为核心,致力于采用生物材料组学研究方法解析天然材料的设计策略,并开发相应的仿生功能材料。主要研究方向包含:
(1)同步辐射红外及X射线技术对重组蛋白和天然材料的表征;
(2)分子动力学模拟对天然材料设计策略的解析;
(3)生物仿生材料,生物纳米材料和生物功能材料的开发与应用。
Principal Research Interests: Using synchrotron characterization and computational modeling to understand “structure-property-function” relationships and self-assembly behaviors of natural and synthetic structural materials and developing bioinspired & biomimetic materials and bio-nanomaterials for environmental, energy and biomedical applications.
本课题组长期诚聘博士后研究员、硕博连读研究生,待遇优厚,工作环境优越,欢迎有志于在同步辐射光谱表征、分子动力学模拟和生物纳米材料开发等领域开展最前沿研究的学生学者加入!有意者请直接与凌盛杰邮件联系。
Applications |
热致变色蚕丝 Thermochromic silks | 双折射丝蛋白膜 Birefringent silk fibroin hydrogel |
导电蚕丝功能织物 Conductive silk yarns | 蚕丝纤维驱动器 Fiber microactuator |
蚕丝蛋白阻燃材料 Flame retardant ionotronic skin | 计算机模拟 Simulation |
谷歌支持教育部产学合作协同育人项目。基于Tensorflow机器学习开发高分子学科课程 | |
Publicantions |
Cover Gallery
Poster Gallery(2021中国材料大会)
2023
1. Yang Wang†, Wenli Gao†, Shuo Yang, Qiaolin Chen, Chao Ye, Hao Wang, Qiang Zhang, Jing Ren, Zhijun Ning, Xin Chen, Zhengzhong Shao, Jian Li, Yifan Liu, Shengjie Ling*, Humanoid intelligent display platform for audiovisual interaction and sound identification. Nano-Micro Letters, 2023, 15:221
2. Zhirui Dong†, Yuehua Zhang†, Ruoxuan Peng†, Yicheng Shan, Wang Ding, Yifan Liu, Jian Li, Mingdong Zhao, Libo Jiang*, and Shengjie Ling*, Tendon repair and regeneration using bioinspired fibrillation engineering that mimicked the structure and mechanics of natural tissue, ACS Nano, 2023, 17, 18, 17858–17872
3. Ruoxuan Peng#, Fang Ba#, Jie Li#, Jiayi Cao, Rong Zhang, Wan-Qiu Liu, Jing Ren, Yifan Liu*, Jian Li*, Shengjie Ling*. Embedding Living Cells with a Mechanically Reinforced and Functionally Programmable Hydrogel Fiber Platform. Advanced Materials. 2023, 2305583
4. Yawen Liu, Yushu Li, Qiyue Wang, Jing Ren, Chao Ye, Fangyuan Li, Shengjie Ling*, Yilun Liu*, Daishun Ling*, Biomimetic Silk Architectures Outperform Animal Horns in Strength and Toughness. Advanced Science. 2023, 2303058
5. Jinling Zhu, Chenchen Dai, Hailiang Yang, Yicheng Shan, Jing Ren, Yifan Liu, Jian Li, Wenshuai Chen*, Junrui Liang*, and Shengjie Ling*, IntelliSense bio-ionotronics battery for early warning of geological seepage, ACS Sensors, 2023.8, 7, 2731-273
6. Jinling Zhu, Hailiang Yang, Leitao Cao, Chenchen Dai, Jing Ren*, Junrui Liang *, and Shengjie Ling*, Functionalization of structural materials through electro-blown spinning of ultrathin and transparent silk fibroin ionotronic nanofiber skin, Nano Today, 2023, 50, 101873
7. Shuo Yang, Chenxi Zhao, Yunhao Yang, Jing Ren, and Shengjie Ling*, The fractal network structure of silk fibroin molecules and its effect on spinning of silkworm silk, ACS Nano, 2023, 17, 8, 7662–7673
8. Xinyi Cao, Chao Ye, Leitao Cao, Yicheng Shan, Jing Ren, Shengjie Ling*, Biomimetic Spun Silk Ionotronic Fibers for Intelligent Discrimination of Motions and Tactile Stimuli, Advanced Materials, 2023, 2300447.【金莎娱乐app下载官网】凌盛杰课题组在丝蛋白离子导体方面的近期重要进展
9. Leitao Cao, Chao Ye, Hao Zhang, Shuo Yang, Yicheng Shan, Zhuochen Lv, Jing Ren, Shengjie Ling*, An artificial motion and tactile receptor constructed by hyperelastic double physically crosslinked silk fibroin ionoelastomer, Advanced Functional Materials, 2023, 2301404.
10. Yanlei Hu, Yue Ma, Liang Liu, Juan Yu, Jing Cui, Shengjie Ling*, and Yimin Fan*, Nanosilk Template-Guided/Induced Construction of Brush-/Flower-like 3D Nanostructures, ACS Applied Materials & Interfaces, 2023, 15, 11, 14654–14663.
11. Hao Zhang, Leitao Cao, Jian Li, Yifan Liu, Zhuochen Lv, Jing Ren*, Zhengzhong Shao*, and Shengjie Ling*, Dual Physically Crosslinked Silk Fibroin Ionoelastomer with Ultrahigh Stretchability and Low Hysteresis, Chemistry of Materials, 2023, 35, 4, 1752–1761
12. Chenchen Dai, Chao Ye, Jing Ren, Shuo Yang, Leitao Cao*, Haipeng Yu, Shouxin Liu, Zhengzhong Shao, Jian Li, Wenshuai Chen*, and Shengjie Ling*, Humanoid Ionotronic Skin for Smart Object Recognition and Sorting. ACS materials letters. 2023, 5, 1, 189–201
13. Chenchen Dai, Yang Wang, Yicheng Shan, Chao Ye, Zhuochen Lv, Shuo Yang, Leitao Cao, Jing Ren, Haipeng Yu, Shouxin Liu, Zhengzhong Shao, Jian Li, Wenshuai Chen*, Shengjie Ling*, Cytoskeleton-inspired hydrogel ionotronics for tactile perception and electroluminescent display in complex mechanical environments. Materials Horizons, 2023, 10, 136-148.
14. Piao Wen, Jing Ren, and Shengjie Ling*, Transpiration-driven electrokinetic power generator for early warning and forecast of geological seepage, ACS Applied Electronic Materials, 2023, 5, 4, 2082–2092
15. Piao Wen, Jing Ren, Qiang Zhang* and Shengjie Ling*, Flame-Retardant and Fire-Sensing Packaging Papers Enabled by Diffusion-Driven Self-Assembly of Graphene Oxide and Branched Polyethyleneimine Coatings, Coatings 2023, 13(6), 1047
16. Xiaowen Zhao, Chunhui Wu, Dejun Dai, Jing Ren, Tao Li*, Shengjie Ling*, Silk nanofibrils-MOF composite membranes for pollutant removal from water, iScience, 2023,26(8), 107290
17. Ren Zhang, Wan-Qiu Liu, Shengjie Ling, and Jian Li*, Combining Cell-Free Expression and Multifactor Optimization for Enhanced Biosynthesis of Cinnamyl Alcohol, Journal of Agricultural and Food Chemistry, 2023, in press https://doi.org/10.1021/acs.jafc.3c02340
18. Fang Ba, Xiangyang Ji, Shuhui Huang, Yufei Zhang, Wan-Qiu Liu, Yifan Liu, Shengjie Ling, Jian Li*. Engineering Escherichia coli to Utilize Erythritol as Sole Carbon Source, Advanced Science, 2023, 2207008
19. Yilin Chen, Wan-Qiu Liu, Xiao Zheng, Yifan Liu, Shengjie Ling, and Jian Li*, Cell-Free Biosynthesis of Lysine-Derived Unnatural Amino Acids with Chloro, Alkene, and Alkyne Groups, ACS Synthetic Biology, 2023, 12, 4, 1349–1357
2022
1. Zhuochen Lv, Leitao Cao, Jing Ren, Shengjie Ling*, Understanding the Mechanical “Shakedown” of Hydrogel Ionotronics for Realizing Their Highly Functional Stability, Polymer, 2022, 262. 125498.
2. Huijuan Wen, Xuyang Chen, Yang Wang, Jinrong Yao, Xin Chen, Shengjie Ling,* and Zhengzhong Shao*, Proteinic Artificial Skin with Molecularly Encoded Coloration, ACS Applied Materials & Interfaces, 2022, 14, 34, 39322–39331
3. Qiang Liu, Xin Li, Hao Zhang, Jing Ren*, Shuo Yang, Leitao Cao, Junrui Liang*, Shengjie Ling*, IntelliSense silk fibroin ionotronic batteries for wildfire detection and alarm, Nano Energy, 2022, 101, 107630
4. Huijuan Wen, Jinrong Yao, Xin Chen, Shengjie Ling*, and Zhengzhong Shao*, Silk-derived peptide nanospirals assembled by self-propelled worm-like filaments, Nano Research, 2023, 16, 1414-1420
5. Shuai Zhang, Yin Zhang, Yanping Huang, Bingqun Lin, Shengjie Ling*, Changtong Mei, Mingzhu Pan*, Intelligent coating based on metal-insulator transitional Ti3O5 towards fire sensing and protection, Chemical Engineering Journal, 2022, 450, 137910
6. Zhihao Chen, Taiwei Zhang, Chun-Teh Chen, Shuo Yang, Zhuochen Lv, Leitao Cao, Jing Ren, Zhengzhong Shao, Li-bo Jiang, and Shengjie Ling*, Mechanically and electrically biocompatible hydrogel ionotronic fibers for fabricating structurally stable implants and enabling noncontact physioelectrical modulation, Materials Horizons, 2022, 9 (6), 1735-1749.【金莎娱乐app下载官网】凌盛杰课题组开发高性能离子导体纤维,实现可植入器件非接触状态识别
7. Yuehua Zhang, Shasha Ye, Leitao Cao, Zhuochen Lv, Jing Ren, Zhengzhong Shao, Yuan Yao*, and Shengjie Ling*, Natural Silk Spinning-Inspired Meso-Assembly-Processing Engineering Strategy for Fabricating Soft Tissue-Mimicking Biomaterials, Advanced Functional Materials, 2022, 2200267【金莎娱乐app下载官网】凌盛杰课题组开发仿生介观组装加工工程新策略
8. Chenxi Zhao, Yawen Liu, Zhuochen Lv, Leitao Cao, Jing Ren, Zhengzhong Shao, Shengjie Ling*, Silk fibroin nacre, Advanced Fiber Materials, 2022, 4, 1191–1208
9. Chao Ye, Shuo Yang, Jing Ren, Shaojun Dong, Leitao Cao, Ying Pei, Shengjie Ling*, Electroassisted Core-Spun Triboelectric Nanogenerator Fabrics for IntelliSense and Artificial Intelligence Perception, ACS Nano, 2022, 16, 3, 4415-4425. 【金莎娱乐app下载官网】金沙8888js官方凌盛杰课题组成功设计具有智能感知功能的织物
10. Wenwen Zhang, Shuo Yang, Ruoxuan Peng, Ting Shu, Jing Ren, Jiajia Zhong, Zeming Qi, Min Chen, Yuzhao Tang, Yimin Fan, Zhengzhong Shao, Shengjie Ling*, Hierarchically non-uniform structures determine the hydro-actuated bending deformation of camel hair, Cell Reports Physical Science, 2022, 3, 3, 100793
11. Shuo Yang, Chenxi Zhao, Jing Ren, Ke Zheng, Zhengzhong Shao, Shengjie Ling*, Acquiring structural and mechanical information of a fibrous network through deep learning, Nanoscale, 2022, 14, 5044-5053
12. Dai, Ming; Zhao, Fei; Fan, Juanjuan; Li, Qing; Yang, Ya; Fan, Zhuangjun; Ling, Shengjie; Yu, Haipeng; Liu, Shouxin; Li, Jian; Chen, Wenshuai* and Yu, Guihua*; A Nanostructured Moisture‐Absorbing Gel for Fast and Large‐Scale Passive Dehumidification, Advanced Materials, 2022, 2200865
13. Wang, Yang; Ren, Jing; Lv, Zhuochen; Cao, Leitao; Lin, Shihui; Pei, Ying; Zhang, Qiang; Shao, Zhengzhong; Ling, Shengjie*; Direct functionalization of natural silks through continuous force-reeling technique, Chemical Engineering Journal, 2022, 435, 1, 134901
14. Wenli Gao, Ting Shu, Ying Guan, Shengjie Ling, Shengquan Liu*, Liang Zhou*, Novel strategy for establishment of an FT-Raman spectroscopy based quantitative model for poplar holocellulose content determination, Carbohydrate Polymers, 2022, 277, 118793
15. Lin, S.; Cao, L.; Lv, Z.; Ren, J.; Ling, S.*, Quantitative Evaluation of Pseudo Strain Signals Caused by Yarn Structural Deformation. Advanced Fiber Materials 2022, 4(2), 214-225.
2021
1. Dong, S.; Wang, Y.; Pei, Y.; Zhang, Q., Li, B.*; Ling, S.*; Ren, J*, Water collecting carbon nanotube yarn with biomimetic composition and structure. Composites Communications, 2021, 28, 100960
2. Ting Shu, Jing Cui, Zhuochen Lv, Leitao Cao, Jing Ren and Shengjie Ling∗, Moderate conformational transition promotes the formation of a self-reinforced highly oriented silk fibroin network structure, Soft Matter, 2021, DOI: 10.1039/d1sm01120k
3. Shuo Yang and Shengjie Ling*, An Artificial Intelligence-Based Motion Trajectory Prediction of Fibrous Matters, Adv. Intell. Syst. 2021, 2100136
4. Shaojun Dong, Yuehua Zhang, Bin Li∗, Jing Ren, Shengjie Ling,∗ and Leitao Cao∗, Self-adhesive and contractile silk fibroin/graphene nano-ionotronic skin for strain sensing of irregular surfaces, Nanotechnology, 2021, 32, 475505
5. Shengjie Ling. Fibrous Proteins: Design, Synthesis, and Assembly. 2021. Humana, New York, NY
6. Cao, L., Liu, Q., Ren, J., Chen, W.*, Pei, Y., Kaplan, D. L.*, Ling, S.*, Electro-Blown Spun Silk/Graphene Nanoionotronic Skin for Multifunctional Fire Protection and Alarm. Adv. Mater. 2021, 2102500.
【学校金莎娱乐app下载官网】 凌盛杰课题组与合作者设计开发蚕丝纳米纤维基阻燃报警离子导体皮肤
7. Shu, T., Lv, Z., Chen, C.-T., Gu, G. X., Ren, J., Cao, L., Pei, Y., Ling, S.*, Kaplan, D. L., Mechanical Training-Driven Structural Remodeling: A Rational Route for Outstanding Highly Hydrated Silk Materials. Small 2021, 2102660.
【学校金莎娱乐app下载官网】 凌盛杰课题组利用机械训练实现高性能丝蛋白基材料
8. Dong, S.; Gan, Z.; Chen, X.; Pei, Y.; Li, B.*; Ren, J.*; Wang, Y.*.; He, H. Y.; Ling, S.*, A Bioinspired Interfacial Design to Toughen Carbon Nanotube Fibers. Materials Chemistry Frontiers 2021, 5, 5706-5717
9. Lv, Z.; Shu, T.; Ren, J.; Cao, L.; Pei, Y.; Shao, Z.; Ling, S., Mechanism of Mechanical Training-Induced Self-Reinforced Viscoelastic Behavior of Highly Hydrated Silk Materials. Biomacromolecules 2021, 22 (5), 2189-2196.
10. Qi, P.; Ren, J.; Ling, S., Animal Silk-Derived Amorphous Carbon Fibers for Electricity Generation and Solar Steam Evaporation. Front. Chem.2021, 9, 669797.
11. Yang, S.; Liu, Q.; Ren, J.; Ling, S., Influence of hydrated protons on temperature and humidity responsiveness of silk fibroin hydrogel ionotronics. Giant 2021, 5, 100044.
12. Xiao, Y.; Liu, Y.; Zhang, W.; Qi, P.; Ren, J.; Pei, Y.; Ling, S., Formation, Structure, and Mechanical Performance of Silk Nanofibrils Produced by Heat-Induced Self-Assembly. Macromol. Rapid Commun. 2021, 42 (3), e2000435.
13. Wang, Y.; Ren, J.; Ye, C.; Pei, Y.; Ling, S., Thermochromic Silks for Temperature Management and Dynamic Textile Displays. Nano-Micro Lett. 2021, 13, 72.
【学校金莎娱乐app下载官网】 凌盛杰课题组开发出可规模化生产的热致变色蚕丝纱线及功能织物
14. Wang, M.; Sun, T.; Wan, D.; Dai, M.; Ling, S.; Wang, J.; Liu, Y.; Fang, Y.; Xu, S.; Yeo, J.; Yu, H.; Liu, S.; Wang, Q.; Li, J.; Yang, Y.; Fan, Z.; Chen, W., Solar-powered nanostructured biopolymer hygroscopic aerogels for atmospheric water harvesting. Nano Energy 2021, 80, 105569.
15. Shu, T.; Zheng, K.; Zhang, Z.; Ren, J.; Wang, Z.; Pei, Y.; Yeo, J.; Gu, G. X.; Ling, S., Birefringent Silk Fibroin Hydrogel Constructed via Binary Solvent-Exchange-Induced Self-Assembly. Biomacromolecules 2021.
16. Liu, Y.; Ren, J.; Pei, Y.; Qi, Z.; Chen, M.; Ling, S., Structural information of biopolymer nanofibrils by infrared nanospectroscopy. Polymer 2021, 219, 123534.
17. Jiang, M.; Shu, T.; Ye, C.; Ren, J.; Ling, S., Predicting the conformations of the silk protein through deep learning. Analyst 2021.146 (8), 2490-2498.
18. Ren, J.; Liu, Q.; Pei, Y.; Wang, Y.; Yang, S.; Lin, S.; Chen, W.*; Ling, S.*; Kaplan, D. L.*, Bioinspired Energy Storage and Harvesting Devices. Adv. Mater. Technol. 2021, ARTN 2001301, 10.1002/admt.202001301.
19. Fang, Y. #; Jing, C. #; Li, G. #; Ling, S.*; Wang, Z.; Lu, P.; Li, Q.; Dai, C.; Gao, S.; Chen, B.; Bai, L.; Zhang, H.; Liu, T.; Wang, Q.; Li, J.; Yu, H.*; Liu, S.*; Chen, W. *, Wood-Derived Systems for Sustainable Oil/Water Separation. Advanced Sustainable Systems 2021, ARTN 2100039, 10.1002/adsu.202100039.
20. Bai, L. #; Li, Q. #; Yang, Y.*; Ling, S.; Yu, H.; Liu, S.; Li, J.; Chen, W.*, Biopolymer Nanofibers for Nanogenerator Development. Research (Wash D C) 2021, 2021, 1843061.
2020
1. Zhang, W. W.; Zheng, K.; Ren, J.; Fan, Y. M.; Ling, S. J., Strong, ductile and lightweight bionanocomposites constructed by bioinspired hierarchical assembly. Compos. Commun. 2020, 17, 97-103.
2. Zhang, W.; Ren, J.; Pei, Y.; Ye, C.; Fan, Y.; Qi, Z.; Ling, S., Analysis of the Contribution of Conformation and Fibrils on Tensile Toughness and Fracture Resistance of Camel Hairs. ACS Biomater. Sci. Eng. 2020.
3. Ye, C.; Xu, Q.; Ren, J.; Ling, S., Violin String Inspired Core-Sheath Silk/Steel Yarns for Wearable Triboelectric Nanogenerator Applications. Advanced Fiber Materials 2020, 2 (1), 24-33.
4. Xu, Q.; Ying, P.; Ren, J.; Kong, N.; Wang, Y.; Li, Y. G.; Yao, Y.; Kaplan, D. L.; Ling, S., Biomimetic Design for Bio-Matrix Interfaces and Regenerative Organs. Tissue Eng Part B Rev 2020.
5. Wu, D.; Ye, C.; Liu, Y.; Ren, J.; Yao, Y.; Ling, S., Light, Strong, and Ductile Architectures Achieved by Silk Fiber Welding Processing. ACS Omega 2020, 5 (21), 11955-11961.
6. Wang, Z.; Lin, S.; Ren, J.; Pei, Y.; Chen, M.; Qi, Z.; Shao, Z.; Ling, S., Understanding humidity-induced actuation in Antheraea pernyi silks. Giant 2020, 3, 100029.
7. Wang, Y.; Huang, W.; Wang, Y.; Mu, X.; Ling, S.; Yu, H.; Chen, W.; Guo, C.; Watson, M. C.; Yu, Y.; Black, L. D., 3rd; Li, M.; Omenetto, F. G.; Li, C.; Kaplan, D. L., Stimuli-responsive composite biopolymer actuators with selective spatial deformation behavior. Proc Natl Acad Sci U S A 2020, 117 (25), 14602-14608.
8. Wang, Q.; Ling, S. J.; Yao, Q. Z.; Li, Q. Y.; Hu, D. B.; Dai, Q.; Weitz, D. A.; Kaplan, D. L.; Buehler, M. J.; Zhang, Y. Y., Observations of 3 nm Silk Nanofibrils Exfoliated from Natural Silkworm Silk Fibers. ACS Mater. Lett. 2020, 2 (2), 153-160.
9. Peng, Z.; Wei, Q.; Chen, H.; Liu, Y.; Wang, F.; Jiang, X.; Liu, W.; Zhou, W.; Ling, S.; Ning, Z., Cs0.15FA0.85PbI3/CsxFA1-xPbI3 Core/Shell Heterostructure for Highly Stable and Efficient Perovskite Solar Cells. Cell Reports Physical Science 2020, 1 (10), 100224.
10. Mu, X.; Wang, Y.; Guo, C.; Li, Y.; Ling, S.; Huang, W.; Cebe, P.; Hsu, H. H.; De Ferrari, F.; Jiang, X.; Xu, Q.; Balduini, A.; Omenetto, F. G.; Kaplan, D. L., 3D Printing of Silk Protein Structures by Aqueous Solvent-Directed Molecular Assembly. Macromol. Biosci. 2020, 20 (1), e1900191.
11. Lv, Z.; Ren, J.; Lin, S.; Pei, Y.; Shao, Z.; Ling, S., Understanding the Continuous Dynamic Mechanical Behavior of Animal Silk. Macromolecules 2020, 54 (1), 249-258.
12. Liu, Q.; Yang, S.; Ren, J.; Ling, S. J., Flame-Retardant and Sustainable Silk Ionotronic Skin for Fire Alarm Systems. ACS Mater. Lett. 2020, 2 (7), 712-720.
【学校金莎娱乐app下载官网】 凌盛杰课题组利用天然蚕丝研发防火预警离子皮肤
13. Liu, J. L.; Chen, Q. Y.; Liu, Q.; Zhao, B. H.; Ling, S. J.; Yao, J. R.; Shao, Z. Z.; Chen, X., Intelligent Silk Fibroin Ionotronic Skin for Temperature Sensing. Adv. Mater. Technol. 2020, 5 (7), 2000430.
14. Lin, S.; Wang, Z.; Chen, X.; Ren, J.; Ling, S., Ultrastrong and Highly Sensitive Fiber Microactuators Constructed by Force-Reeled Silks. Adv Sci (Weinh) 2020, 7 (6), 1902743.
15. Kong, N.; Wan, F. J.; Dai, W. Y.; Lu, Y.; Cheng, P. H.; Dai, J.; Li, Y. Y.; Gong, J. K.; Ling, S. J.; Yao, Y., Bioinspired polypeptide as building blocks for multifunctional material design. Applied Materials Today 2020, 20, 100683.
16. Kong, N.; Wan, F.; Dai, W.; Wu, P.; Su, C.; Peng, C.; Zheng, K.; Chen, X.; Ling, S.; Gong, J.; Yao, Y., A Cuboid Spider Silk: Structure-Function Relationship and Polypeptide Signature. Macromol. Rapid Commun. 2020, 41 (6), e1900583.
17. Hu, L.; Han, Y.; Ling, S.; Huang, Y.; Yao, J.; Shao, Z.; Chen, X., Direct Observation of Native Silk Fibroin Conformation in Silk Gland of Bombyx mori Silkworm. ACS Biomater. Sci. Eng. 2020, 6 (4), 1874-1879.
18. Guo, C.; Li, C.; Vu, H. V.; Hanna, P.; Lechtig, A.; Qiu, Y.; Mu, X.; Ling, S.; Nazarian, A.; Lin, S. J.; Kaplan, D. L., Thermoplastic moulding of regenerated silk. Nat. Mater. 2020, 19 (1), 102-108.
19. Dong, Q.; Fang, G.; Huang, Y.; Hu, L.; Yao, J.; Shao, Z.; Ling, S.; Chen, X., Effect of stress on the molecular structure and mechanical properties of supercontracted spider dragline silks. J. Mater. Chem. B 2020, 8 (1), 168-176.
20. Dai, J.; Wang, Y. Q.; Wu, D. H.; Wan, F. J.; Lu, Y.; Kong, N.; Li, X. C.; Gong, J. K.; Ling, S. J.; Yao, Y., Biointerface mediates cytoskeletal rearrangement of pancreatic cancer cell and modulates its drug sensitivity. Colloid Interface Sci. Commun. 2020, 35, 100250.
21. Dai, J.; Lu, Y.; He, X. Y.; Zhong, C.; Lin, B. L.; Ling, S. J.; Gong, J. K.; Yao, Y., Vertical nanopillar induces deformation of cancer cell and alteration of ATF3 expression. Applied Materials Today 2020, 20, 100753.
2019
1. Zhong, J.; Liu, Y.; Ren, J.; Tang, Y.; Qi, Z.; Zhou, X.; Chen, X.; Shao, Z.; Chen, M.; Kaplan, D. L.; Ling, S., Understanding Secondary Structures of Silk Materials via Micro- and Nano-Infrared Spectroscopies. ACS Biomater. Sci. Eng. 2019, 5 (7), 3161-3183.
2. Zheng, K.; Ling, S., De Novo Design of Recombinant Spider Silk Proteins for Material Applications. Biotechnol. J. 2019, 14 (1), e1700753.
3. Zheng, K.; Hu, Y.; Zhang, W.; Yu, J.; Ling, S.; Fan, Y., Oxidizing and Nano-dispersing the Natural Silk Fibers. Nanoscale Res. Lett. 2019, 14 (1), 250.
4. Ye, C.; Wang, J. J.; Xu, Y. Y.; Zheng, K.; Wang, X. Y.; Ling, S. J.; Kaplan, D. L., De Novo Synthesis and Assembly of Flexible and Biocompatible Physical Sensing Platforms. Adv. Mater. Technol. 2019, 4 (1), 1800141.
5. Ye, C.; Ren, J.; Wang, Y. L.; Zhang, W. W.; Qian, C.; Han, J.; Zhang, C. X.; Jin, K.; Buehler, M. J.; Kaplan, D. L.; Ling, S. J., Design and Fabrication of Silk Templated Electronic Yarns and Applications in Multifunctional Textiles. Matter 2019, 1 (5), 1411-1425.
【学校金莎娱乐app下载官网】 凌盛杰课题组与合作者开发可规模化生产多功能电子织物
6. Ye, C.; Dong, S.; Ren, J.; Ling, S., Ultrastable and High-Performance Silk Energy Harvesting Textiles. Nano-Micro Lett. 2019, 12 (1), 12.
7. Yang, N.; Zhang, W.; Ye, C.; Chen, X.; Ling, S., Nanobiopolymers Fabrication and Their Life Cycle Assessments. Biotechnol. J. 2019, 14 (1), e1700754.
8. Yang, N.; Qi, P.; Ren, J.; Yu, H.; Liu, S.; Li, J.; Chen, W.; Kaplan, D. L.; Ling, S., Polyvinyl Alcohol/Silk Fibroin/Borax Hydrogel Ionotronics: A Highly Stretchable, Self-Healable, and Biocompatible Sensing Platform. ACS Appl. Mater. Interfaces 2019, 11 (26), 23632-23638.
9. Wang, Y. S.; Wang, J. L.; Ling, S. J.; Liang, H. W.; Dai, M.; Bai, L. L.; Li, Q.; Fan, Z. J.; Lee, S. Y.; Yu, H. P.; Liu, S. X.; Wang, Q. W.; Liu, Y. X.; Li, J.; Sun, T. M.; Chen, W. S., Wood-Derived Nanofibrillated Cellulose Hydrogel Filters for Fast and Efficient Separation of Nanoparticles.Advanced Sustainable Systems 2019, 3 (9), 1900063.
10. Wang, Q.; Ling, S. J.; Liang, X. P.; Wang, H. M.; Lu, H. J.; Zhang, Y. Y., Self-Healable Multifunctional Electronic Tattoos Based on Silk and Graphene. Adv. Funct. Mater. 2019, 29 (16), 1808695.
11. Ren, J.; Wang, Y.; Yao, Y.; Wang, Y.; Fei, X.; Qi, P.; Lin, S.; Kaplan, D. L.; Buehler, M. J.; Ling, S., Biological Material Interfaces as Inspiration for Mechanical and Optical Material Designs. Chem. Rev. 2019, 119 (24), 12279-12336.
12. Ren, J.; Liu, Y. W.; Kaplan, D. L.; Ling, S. J., Interplay of structure and mechanics in silk/carbon nanocomposites. MRS Bull. 2019, 44 (1), 53-58.
13. Liu, Y. W.; Ren, J.; Ling, S. J., Bioinspired and biomimetic silk spinning. Compos. Commun. 2019, 13, 85-96.
14. Lin, S.; Ye, C.; Zhang, W.; Xu, A.; Chen, S.; Ren, J.; Ling, S., Nanofibril Organization in Silk Fiber as Inspiration for Ductile and Damage-Tolerant Fiber Design. Advanced Fiber Materials 2019, 1 (3-4), 231-240.
2018
1. Zheng, K.; Zhong, J. J.; Qi, Z. M.; Ling, S. J.; Kaplan, D. L., Isolation of Silk Mesostructures for Electronic and Environmental Applications. Adv. Funct. Mater. 2018, 28 (51), 1806380.
【学校金莎娱乐app下载官网】 凌盛杰课题组设计绿色高效丝介观结构单元提取策略
2. Zhang, W.; Ye, C.; Zheng, K.; Zhong, J.; Tang, Y.; Fan, Y.; Buehler, M. J.; Ling, S.; Kaplan, D. L., Tensan Silk-Inspired Hierarchical Fibers for Smart Textile Applications. ACS Nano 2018, 12 (7), 6968-6977.
3. Yeo, J.; Jung, G. S.; Martin-Martinez, F. J.; Ling, S.; Gu, G. X.; Qin, Z.; Buehler, M. J., Materials-by-Design: Computation, Synthesis, and Characterization from Atoms to Structures. Phys. Scr. 2018, 93 (5), 053003.
4. Wang, Y.; Guo, J.; Zhou, L.; Ye, C.; Omenetto, F. G.; Kaplan, D. L.; Ling, S., Design, Fabrication, and Function of Silk-Based Nanomaterials.Adv. Funct. Mater. 2018, 28 (52), 1805305.
5. Ling, S. J.; Kaplan, D. L.; Buehler, M. J., Nanofibrils in nature and materials engineering. Nat. Rev. Mater. 2018, 3 (4), 18016.
【学校金莎娱乐app下载官网】 凌盛杰与合作者撰写生物大分子纳米微纤材料综述
6. Ling, S.; Wang, Q.; Zhang, D.; Zhang, Y.; Mu, X.; Kaplan, D. L.; Buehler, M. J., Integration of stiff graphene and tough silk for the design and fabrication of versatile electronic materials. Adv. Funct. Mater. 2018, 28 (9), 1705291.
7. Ling, S.; Jin, K.; Qin, Z.; Li, C.; Zheng, K.; Zhao, Y.; Wang, Q.; Kaplan, D. L.; Buehler, M. J., Combining In Silico Design and Biomimetic Assembly: A New Approach for Developing High-Performance Dynamic Responsive Bio-Nanomaterials. Adv. Mater. 2018, 30 (43), e1802306.
8. Ling, S.; Chen, W.; Fan, Y.; Zheng, K.; Jin, K.; Yu, H.; Buehler, M. J.; Kaplan, D. L., Biopolymer nanofibrils: structure, modeling, preparation, and applications. Prog. Polym. Sci. 2018, 85, 1-56.
【学校金莎娱乐app下载官网】 凌盛杰与合作者发表天然高分子纳米微纤综述
9. Huang, W.; Ling, S.; Li, C.; Omenetto, F. G.; Kaplan, D. L., Silkworm silk-based materials and devices generated using bio-nanotechnology. Chem. Soc. Rev. 2018, 47 (17), 6486-6504.
10. Han, Y.; Ling, S.; Qi, Z.; Shao, Z.; Chen, X., Application of far-infrared spectroscopy to the structural identification of protein materials. Phys. Chem. Chem. Phys. 2018, 20 (17), 11643-11648.
11. Guo, J.#; Ling, S.#; Li, W#.; Chen, Y.; Li, C.; Omenetto, F. G.; Kaplan, D. L., Coding cell micropatterns through peptide inkjet printing for arbitrary biomineralized architectures. Adv. Funct. Mater. 2018, 28 (19), 1800228.
12. Zhu, Z.#; Ling, S.#; Yeo, J.; Zhao, S.; Tozzi, L.; Buehler, M. J.; Omenetto, F.; Li, C.; Kaplan, D. L.*, High-Strength, Durable All-Silk Fibroin Hydrogels with Versatile Processability toward Multifunctional Applications. Adv. Funct. Mater. 2018, 28 (10), 1704757.
PhD & Postdoc publications:
1. Zhou, W.; Chen, Y.; Roh, T.; Lin, Y.; Ling, S.; Zhao, S.; Lin, J. D.; Khalil, N.; Cairns, D. M.; Manousiouthakis, E.; Tse, M.; Kaplan, D. L., Multifunctional Bioreactor System for Human Intestine Tissues. ACS Biomater. Sci. Eng. 2018, 4 (1), 231-239.
2. Dinjaski, N.; Ebrahimi, D.; Qin, Z.; Giordano, J. E. M.; Ling, S.; Buehler, M. J.; Kaplan, D. L., Predicting rates of in vivo degradation of recombinant spider silk proteins. J Tissue Eng Regen Med 2018, 12 (1), e97-e105.
3. Ling, S.; Qin, Z.; Li, C.; Huang, W.; Kaplan, D. L.; Buehler, M. J., Polymorphic regenerated silk fibers assembled through bioinspired spinning. Nat. Commun. 2017, 8 (1), 1387.
4. Ling, S.; Qin, Z.; Huang, W.; Cao, S.; Kaplan, D. L.; Buehler, M. J., Design and function of biomimetic multilayer water purification membranes. Sci. Adv. 2017, 3 (4), e1601939.
5. Jacobsen, M. M.; Tokareva, O. S.; Ebrahimi, D.; Huang, W.; Ling, S.; Dinjaski, N.; Li, D.; Simon, M.; Staii, C.; Buehler, M. J.; Kaplan, D. L.; Wong, J. Y., Effect of Terminal Modification on the Molecular Assembly and Mechanical Properties of Protein-Based Block Copolymers.Macromol. Biosci. 2017, 17 (9), 1700095.
5. Guo, J.; Li, C.; Ling, S.; Huang, W.; Chen, Y.; Kaplan, D. L., Multiscale design and synthesis of biomimetic gradient protein/biosilica composites for interfacial tissue engineering. Biomaterials 2017, 145, 44-55.
7. Dinjaski, N.#; Ebrahimi, D.#; Ling, S.#; Shah, S.; Buehler, M. J.; Kaplan, D. L., Integrated Modeling and Experimental Approaches to Control Silica Modification of Design Silk-Based Biomaterials. ACS Biomater. Sci. Eng. 2017, 3 (11), 2877-2888.
8. Chen, C. T.; Martin-Martinez, F. J.; Ling, S. J.; Qin, Z.; Buehler, M. J., Nacre-inspired design of graphene oxide-polydopamine nanocomposites for enhanced mechanical properties and multi-functionalities. Nano Futures 2017, 1 (1), 011003.
9. Zhu, J.; Huang, W.; Zhang, Q.; Ling, S.; Chen, Y.; Kaplan, D. L., Aqueous-Based Coaxial Electrospinning of Genetically Engineered Silk Elastin Core-Shell Nanofibers. Materials (Basel) 2016, 9 (4), 221.
10. Ling, S.; Zhang, Q.; Kaplan, D. L.; Omenetto, F.; Buehler, M. J.; Qin, Z., Printing of stretchable silk membranes for strain measurements. Lab Chip 2016, 16 (13), 2459-66.
11. Ling, S.; Liang, H.; Li, Z.; Ma, L.; Yao, J.; Shao, Z.; Chen, X., Soy protein-directed one-pot synthesis of gold nanomaterials and their functional conductive devices. J. Mater. Chem. B 2016, 4 (21), 3643-3650.
12. Ling, S.; Li, C.; Jin, K.; Kaplan, D. L.; Buehler, M. J., Liquid Exfoliated Natural Silk Nanofibrils: Applications in Optical and Electrical Devices.Adv. Mater. 2016, 28 (35), 7783-90.
13. Ling, S.; Jin, K.; Kaplan, D. L.; Buehler, M. J., Ultrathin Free-Standing Bombyx mori Silk Nanofibril Membranes. Nano Lett. 2016, 16 (6), 3795-800.
14. Ling, S.; Dinjaski, N.; Ebrahimi, D.; Wong, J. Y.; Kaplan, D. L.; Buehler, M. J., Conformation Transitions of Recombinant Spidroins via Integration of Time-Resolved FTIR Spectroscopy and Molecular Dynamic Simulation. ACS Biomater. Sci. Eng. 2016, 2 (8), 1298-1308.
15. Li, C.; Hotz, B.; Ling, S.; Guo, J.; Haas, D. S.; Marelli, B.; Omenetto, F.; Lin, S. J.; Kaplan, D. L., Regenerated silk materials for functionalized silk orthopedic devices by mimicking natural processing. Biomaterials 2016, 110, 24-33.
16. Ling, S.; Qi, Z.; Shao, Z.; Chen, X., Determination of phase behaviour in all protein blend materials with multivariate FTIR imaging technique.J. Mater. Chem. B 2015, 3 (5), 834-839.
17. Liu, Y.; Ling, S.; Wang, S.; Chen, X.; Shao, Z., Thixotropic silk nanofibril-based hydrogel with extracellular matrix-like structure. Biomater. Sci. 2014, 2 (10), 1338-1342.
18. Ling, S. J.; Li, C. X.; Adamcik, J.; Wang, S. H.; Shao, Z. Z.; Chen, X.; Mezzenga, R., Directed Growth of Silk Nanofibrils on Graphene and Their Hybrid Nanocomposites. ACS Macro Lett. 2014, 3 (2), 146-152.
19. Ling, S.; Qi, Z.; Watts, B.; Shao, Z.; Chen, X., Structural determination of protein-based polymer blends with a promising tool: combination of FTIR and STXM spectroscopic imaging. Phys. Chem. Chem. Phys. 2014, 16 (17), 7741-8.
20. Ling, S.; Li, C.; Adamcik, J.; Shao, Z.; Chen, X.; Mezzenga, R., Modulating materials by orthogonally oriented beta-strands: composites of amyloid and silk fibroin fibrils. Adv. Mater. 2014, 26 (26), 4569-74.
21. 凌盛杰; 邵正中;; 陈新, 同步辐射红外光谱成像技术对细胞的研究. 化学进展 2014, 26 (01), 178-192.
22. Ling, S. J.; Qi, Z. M.; Knight, D. P.; Shao, Z. Z.; Chen, X., FTIR imaging, a useful method for studying the compatibility of silk fibroin-based polymer blends. Polym. Chem. 2013, 4 (21), 5401-5406.
23. Ling, S.; Qi, Z.; Knight, D. P.; Huang, Y.; Huang, L.; Zhou, H.; Shao, Z.; Chen, X., Insight into the structure of single Antheraea pernyi silkworm fibers using synchrotron FTIR microspectroscopy. Biomacromolecules 2013, 14 (6), 1885-92.
24. 凌盛杰; 黄郁芳; 黄蕾; 邵正中; 陈新, 同步辐射红外显微光谱学和成像技术在分析化学中的应用. 化学进展 2013, 25 (5), 821-831.
25. Ling, S. J.; Zhou, L.; Zhou, W.; Shao, Z. Z.; Chen, X., Conformation transition kinetics and spinnability of regenerated silk fibroin with glycol, glycerol and polyethylene glycol. Mater. Lett. 2012, 81, 13-15.
26. Chen, X.; Cai, H.; Ling, S.; Shao, Z.; Huang, Y., Conformation transition of Bombyx mori silk protein monitored by time-dependent fourier transform infrared (FT-IR) spectroscopy: effect of organic solvent. Appl. Spectrosc. 2012, 66 (6), 696-9.
27. Ling, S.; Qi, Z.; Knight, D. P.; Shao, Z.; Chen, X., Synchrotron FTIR microspectroscopy of single natural silk fibers. Biomacromolecules 2011, 12 (9), 3344-9.
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Ø 2023.10 祝贺曹心怡、单奕诚、朱金玲希获得2023年硕士研究生国家奖学金! Ø 2023.9 课题组成员参加鲲纶TMHypakTM创新设计工作坊活动 Ø 2023.7 凌盛杰老师赴美国波士顿参加GRC/2023 Meeting of silk proteins and the transition to biotechnologies大会并作邀请报告;凌盛杰老师参加2023世界人工智能大会并作口头报告 Ø 2023.7 课题组成员彭若铉、杨硕赴深圳参加2022-2023中国材料大会,彭若铉获得优秀墙报奖 Ø 2023.7 热烈祝贺赵晨希获得2023上海市研究生优秀毕业生称号!凌盛杰老师作为教师代表在金沙8888js官方毕业颁证仪式上发言 Ø 2023.5 祝贺赵晨希、吕卓宸获得2023上海科技大学研究生优秀毕业生称号! Ø 2023.5 课题组成员参加上海创新创意设计研究院DIIS×ANTA Workshop活动 Ø 2023.4 课题组全体成员周末赴苏州踏青 Ø 2022.10 祝贺陈智昊、张月华、张豪、赵晨希获得2022年硕士研究生国家奖学金! Ø 2022.7 祝贺博士研究生王洋获得CSC国家公派出国留学资格! Ø2022.07 热烈祝贺课题组第一届博士研究生:叶超;第二届硕士研究生:疏婷、刘强顺利毕业。热烈祝贺叶超博士获得2022上海科技大学研究生优秀毕业生、2022年上海市优秀毕业生荣誉称号 Ø 2021.12 祝贺疏婷,刘强,吕卓宸,王洋获得“三好学生”称号;杨硕获得“优秀学生称号” Ø 2021.11 祝贺吕卓宸,刘强,曹雷涛,曹心怡,代晨晨“FreEco新型电池-丝基离电材料及其应用”项目获得上科大第四届创新创业大会学生组二等奖 Ø 2021.10 祝贺吕卓宸,疏婷,刘强获得硕士国家奖学金 Ø 2021.10 祝贺曹雷涛博士获得“中国化学会第二届全国纤维素学术研讨会优秀墙报奖” Ø 2021.07 课题组全体成员赴厦门参加2021中国材料大会 Ø 2021.07 热烈祝贺课题组第一届硕士研究生:刘雅文、林诗绘、戚萍顺利毕业。林诗绘获得2021年上海市优秀毕业生荣誉称号 Ø 2021.06 课题组工程师崔静、预备成员曹心怡、彭若铉参加MIT线上课程Predictive Multiscale Materials Design,完成“Machine Learning-Driven Discovery of Metal-Organic Frameworks for Efficient CO2 Capture in Humid Condition”汇报,顺利结业 Ø 2021.03.25周浦花海春游赏花户外烧烤活动 Ø 2021.3 上科大微信公众号以#聚焦spotlight 话题报道了课题组三名本科毕业生的毕业设计转化为科技论文发表的新闻 Ø 2020.12 刘雅文,戚萍,刘强,叶超,林诗绘,张继聪获得校“三好学生”、“优秀学生”称号 Ø 2020.12 课题组成员王洋,疏婷,董少君,陈智昊,张月华以“可穿戴智能变色织物”创新项目参加上海科技大学第三届创新创业大会 Ø 2020.12 课题组博士研究生叶超、硕士研究生刘强参加武汉理工大学第十届材料科学与工程学科研究生线上论坛,并分别进行口头汇报。刘强荣获“优秀汇报人”称号 Ø 2020.11 曹雷涛博士获得中国博士后科学基金第68批面上资助 Ø 2020.10 课题组参与川沙中学学生来访上科大的参观活动讲解 Ø 2020.09 课题组研究生刘强,戚萍,杨硕,吕卓宸以“基于一类新型阻燃导电材料的火灾报警系统”创新项目参加第七届上海市大学生新材料创新创意大赛,并在决赛中荣获三等奖 Ø 2020.08 课题组研究生夏季室外郊游活动-上海欢乐谷一日游 Ø 2020.06 课题组成员董少君、吕卓宸、杨硕参加MIT线上课程Predictive Multiscale Materials Design,作出“新型过滤装置设计”汇报,并顺利结业 Ø 2020.01 祝贺课题组助理研究员任婧博士参与(第三完成人,3/5)项目“碳纳米管复合纤维锂离子电池”获得国家自然科学二等奖 Ø 2019. 08 课题组景德镇集体出游,欢送博士后郑可出站 Ø 2019. 08 叶超、戚萍参加厦门大学软物质与非平衡物理研究生国际暑期学校 Ø 2019. 06 张文文获得南京林业大学校长奖学金 Ø 2018. 10 凌盛杰入选美国化学会ACS Biomaterials Science & Engineering杂志青年编委 Ø 2018. 10 凌盛杰受邀参加韩国2018 Fall meeting of KSBB (The Korean Society for Biotechnology and Bioengineering) Ø 2018. 10 叶超获国家奖学金(硕士研究生) Ø 2018. 10 张文文获国家奖学金(硕士研究生) Ø 2018. 09 张文文、叶超参加大连工业大学第一届研究生纺织新材料论坛,分获论文一、二等奖 |
Original popular science |
2022 Group photo |
Group Members |
王洋 Yang Wang
19级博士研究生
浙江理工大学学士
邮箱:wangyang3@shanghaitech.edu.cn
杨硕 Shuo Yang
20级博士研究生
上海科技大学学士
邮箱:yangshuo@shanghaitech.edu.cn
彭若铉 Ruoxuan Peng
21级博士研究生
华南农业大学学士
邮箱:pengrx@shanghaitech.edu.cn
张豪 Hao Zhang
21级博士研究生
武汉理工大学学士
邮箱:zhanghao6@shanghaitech.edu.cn
朱金玲 Jinling Zhu
21级硕士研究生
大连理工大学学士
邮箱:zhjl1@shanghaitech.edu.cn
曹心怡 Xinyi Cao
21级硕士研究生
郑州大学学士
邮箱:caoxy@shanghaitech.edu.cn
张家豪 Jiahao Zhang
21级联合培养硕士研究生
郑州大学学士
邮箱:zhangjh6@shanghaitech.edu.cn
李子剑 Zijian Li
22级硕士研究生
青岛科技大学学士
邮箱:lizj2022@shanghaitech.edu.cn
单弈诚 Yicheng Shan
22级硕士研究生
上海科技大学学士
邮箱:shanych2022@shanghaitech.edu.cn
白润南 Runnan Bai
22级硕士研究生
上海科技大学学士
邮箱:bairn2022@shanghaitech.edu.cn
杨云浩 Yunhao Yang
22级硕士研究生
山西农业大学学士
邮箱:yangyh2022@shanghaitech.edu.cn
黄晨 Chen Huang
23级硕士研究生
上海科技大学学士
邮箱:huangchen2023@shanghaitech.edu.cn
张嘉琦 Jiaqi Zhang
23级硕士研究生
北京服装学院学士
邮箱:zhangjq12023@shanghaitech.edu.cn
张轩恺 Xuankai Zhang
23级硕士研究生
苏州大学学士
邮箱:zhangxk2023@shanghaitech.edu.cn
于梦菲
23级硕士研究生
浙大宁波理工学院学士
邮箱:yumf2023@shanghaitech.edu.cn
赵晨希 2023届硕士研究生 壳牌(上海)技术有限公司/项目主管
吕卓宸 2023届硕士研究生 四川省省直机关公务员
张月华 2023届硕士研究生 比亚迪商用车研究院电动技术开发中心/高级工程师
陈智昊 2023届硕士研究生 杭州德普医疗科技有限公司深圳分公司/植入物工程师
曹雷涛 2020-2022 博士后 浙江大学衢州研究院/特聘副研究员
叶超 2022届博士研究生 盐城工学院/讲师
疏婷 2022届硕士研究生 合肥维信诺科技有限公司/整合工程师
刘强 2022届硕士研究生 会通新材料股份有限公司/研发工程师
郭红冲 2019-2021 博士后 同济大学医学院 博士后
刘雅文 2021届硕士研究生 上海交通大学/博士研究生
林诗绘 2021届硕士研究生 中国商飞上海飞机制造有限公司
戚萍 2021届硕士研究生 成都市树徳实验中学/化学老师
张文文 2017-2020联合培养博士研究生 盐城工学院/讲师
肖越龙 2019-2020联合培养硕士研究生 郑州大学
江明睿 2020届本科生&RA Syracuse University/博士研究生
王臻 2020届本科生 复旦大学/博士研究生
毕涵 2020届本科生 北京中材人工晶体研究院有限公司/R&D
郑可 2017-2019博士后 安徽农业大学/副教授
陈新岩 2019届本科生 中国科学院大学化学研究所/博士研究生
吉星宇 2019届本科生 中国科学院大学上海药物研究所/硕士研究生
周时敏 2019届本科生 UC Berkeley, USA/硕士研究生
王正钧 2019届本科生 香港科技大学/博士研究生
杨宁宁 2017-2018联合培养硕士研究生 上海市内分泌代谢病研究所/技术员
包如一 2018届本科生 汉高,上海/R&D
徐奕奕 2018届本科生 Western University, CAN/博士研究生
许吉鋆 2018届本科生 University of Rochester, USA/硕士研究生