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邸江涛
单位:中国科学院苏州纳米技术与纳米仿生研究所
地址:江苏省苏州市工业园区若水路398号
邮编:215123
电话:86-512-62873515
个人主页: http://yjsb.sinano.ac.cn:8000/108
实验室介绍: 实验室主要从事纳米碳基高效能量转化器件研究,包括电化学电池、人工肌肉等。更新于2018-12-10
 
个人简历 Personal resume
2016年6月至今 中科院苏州纳米所、先进材料研究部、中国科学院多功能材料与轻巧系统重点实验室 研究员,博士生导师
2013年8月至2016年5月 美国德克萨斯州大学达拉斯分校  研究助理
2008年9月至2013年7月 中国科学院大学/中科院苏州纳米所  硕博连读获博士学位
2004年9月至2008年7月 江苏科技大学 本科


主要学术贡献:
1)高性能碳纳米管纤维/薄膜组装。系统研究了可纺丝碳纳米管阵列生长行为,实现了大尺寸可纺丝阵列的多片制备;突破了可纺丝的小管径、双壁碳纳米管阵列的制备技术,基于此获得了高强碳纳米管纤维和薄膜;发明了碳纳米管纤维瞬时键合增强技术,解决了长期存在的碳纳米管管间滑移严重的问题,大幅度地提升了纤维的力学性能及极端环境耐受性,并首次对碳纳米管纤维在极端温度下的力学性能进行了研究。

2)高效纳米碳基能量转化器件。构筑了取向碳纳米管/半导体异质结,实现了光生载流子的定向传输,大幅度提升了光伏器件的转换效率;实现了三维互联的碳纳米管导电网络的构筑以及非贵金属催化剂的高效均匀负载,使得复合电极集气体扩散、集流、催化、结构柔性为一体,以此获得高性能金属-空气电池;通过纤维结构设计,在国际上率先实现了可驱动重物快速往返转动型、解耦合伸缩型、电热、电化学驱动的可控收缩型等多种人工肌肉纤维。 上述工作发表在近五年的著名期刊上并受到业内和媒体的多次正面引用与报道。


研究方向:纳米碳基能量存储与转化器件
1)柔性助力织物。以驱动行为可控的人工肌肉纤维为结构单位,编织形成具有协助人体运动的柔性助力织物。主要研究内容包括:人工肌肉纤维制备,以高品质碳纳米管纤维为基体,负载功能添加物,形成复合纤维,调控纤维的多级组装结构,实现驱动形式(转动、伸缩、弯曲)以及驱动量可控的人工肌肉纤维;驱动行为研究,重点关注具备高效能量结构的构筑,阐明驱动机制;柔性助力织物设计,结合人体关节的运动行为,设计人工肌肉纤维的布置结构,形成有助力效果的智能织物的演示验证。 

2)新型能量转化器件,主要开发环境友好型的二次电池,研究高效催化剂的制备、负载技术以及柔性电极设计与加工。探索基于纳米碳基纤维的液流产能、力电转化等新型能量转化器件。研究能量转化器件的可编织化,构建功能织物。

主要奖励:
2018 江苏省“双创计划”(双创人才)
2018 江苏省“333高层次人才培养工程”第三层次培养对象
2018 苏州工业园区金鸡湖人才计划(高层次人才)

发表论文:
在Science, PNAS, Advanced Materials, Nano Letters, ACS Nano, Advanced Functional Materials, Small等影响因子大于6的国际期刊上发表论文40余篇(H-Index: 21),应邀为Advanced Materials, Nano Letters, Small,Carbon等学术期刊审稿。

(38)    Song, Y.; Di, J.* et al., Milliseconds Tension-annealing for Enhancing Carbon Nanotube Fibers, Nanoscale, 2019 Accepted.
(37)    Lv, B.; Zeng, S.; Yang, W.; Qiao, J.; Zhang, C.; Zhu, C.; Chen, M.; Di, J.*; Li, Q., In-situ embedding Zeolitic imidazolate framework derived Co-N-C bifunctional catalysts in carbon nanotube networks for flexible Zn–air batteries. Journal of Energy Chemistry 2019, DOI: https://doi.org/10.1016/j.jechem.2019.04.005
(36)    Zhang, C.; Song, Y.; Zhang, H.; Lv, B.; Qiao, J.; Yu, N.; Zhang, Y.; Di, J.*; Li, Q.*, Mechanical Properties of Carbon Nanotube Fibers at Extreme Temperatures. Nanoscale 2019, 11 (10), 4585-4590
(35)    Li, M.#; Song, Y.#; Zhang, C.; Yong, Z.; Qiao, J.; Hu, D.; Zhang, Z.; Wei, H.; Di, J.*; Li, Q.*, Robust carbon nanotube composite fibers: Strong resistivities to protonation, oxidation, and ultrasonication. Carbon 2019, 146, 627-635.
(34)    Yu, N.; Wang, X.; Zhang, S.; Zeng, S.; Zhang, Y.; Di, J.*; Li, Q., All-solid-state supercapacitors using a highly-conductive neutral gum electrolyte. RSC Advances 2019, 9 (15), 8169-8174
(33)    Zeng, S.; Tong, X.; Zhou, S.; Lv, B.; Qiao, J.; Song, Y.; Chen, M.; Di, J.*; Li, Q.*, All-in-One Bifunctional Oxygen Electrode Films for Flexible Zn-Air Batteries. Small 2018, 1803409.
(32) 	Qiao, J.; Di, J.*; Zhou, S.; Jin, K.; Zeng, S.; Li, N.; Fang, S.; Song, Y.; Li, M.*; Baughman, R. H.; Li, Q.* Large-Stroke Electrochemical Carbon Nanotube/Graphene Hybrid Yarn Muscles. Small 2018 14 (38), e1801883. 
(31) 	Zhang, S.; Yu, N.; Zeng, S.; Zhou, S.; Chen, M.; Di, J.*; Li, Q.* An Adaptive and Stable Bio-Electrolyte for Rechargeable Zn-Ion Batteries. J. Mater. Chem. A 2018, 6, 12237–12243 
(30) 	Song, Y.; Zhou, S.; Jin, K.; Qiao, J.; Li, D.; Xu, C.; Hu, D.; Di, J.*; Li, M.*; Zhang, Z.; Li, Q.*, Hierarchical Carbon Nanotube Composite Yarn Muscles. Nanoscale 2018, 10 (8), 4077–4084.
(28) 	Yang, E.; Xu, Z.; Baniasadi, M.; Moreno, S.; Yi, H.; Di, J.; Baughman, R.; Minary-Jolandan, M.* Tensile Fatigue Behavior of Single Carbon Nanotube Yarns. J. Mater. Sci. 2018, 53 (16), 11426–11432.
(27) 	Jin, K.; Zhang, S.; Zhou, S.; Qiao, J.; Song, Y.; Di, J.*; Zhang, D.*; Li, Q.* Self-Plied and Twist-Stable Carbon Nanotube Yarn Artificial Muscles Driven by Organic Solvent Adsorption. Nanoscale 2018, 10 (17), 8180–8186.
(27) 	Zhou, S.; Zeng, S.; Zhang, S.; Qiao, J.; Di, J.*; Chen, M.*; Liu, N.*; Li, Q., Hierarchical Carbon Nanotube Hybrid Films for High-Performance All-Solid-State Supercapacitors. RSC Adv. 2017, 7 (82), 52010–52016.
(26) 	Zhang, L.; Kim, T.; Li, N.; Kang, T. J.; Chen, J.; Pringle, J. M.; Zhang, M.; Kazim, A. H.; Fang, S.; Haines, C.; et al. High Power Density Electrochemical Thermocells for Inexpensively Harvesting Low-Grade Thermal Energy. Adv. Mater. 2017, 29 (12), 1605652.
(25) 	Zeng, S.; Chen, H.; Wang, H.; Tong, X.; Chen, M.; Di, J.*; Li, Q.* Crosslinked Carbon Nanotube Aerogel Films Decorated with Cobalt Oxides for Flexible Rechargeable Zn–Air Batteries. Small 2017, 13 (29), 1700518.
(24) 	Xiang, X.; Yang, Z.; Di, J.*; Zhang, W.; Li, R.; Kang, L.; Zhang, Y.*; Zhang, H.; Li, Q.* In Situ Twisting for Stabilizing and Toughening Conductive Graphene Yarns. Nanoscale 2017, 9 (32), 11523–11529.
(23) 	Wang, H.; Lu, W.; Di, J.; Li, D.; Zhang, X.; Li, M.; Zhang, Z.; Zheng, L.; Li, Q. Ultra‐Lightweight and Highly Adaptive All‐Carbon Elastic Conductors with Stable Electrical Resistance. Adv. Funct. Mater. 2017, 27 (13), 1606220.
(22) 	Kim, S. H.; Haines, C. S.; Li, N.; Kim, K. J.; Mun, T. J.; Choi, C.; Di, J.; Oh, Y. J.; Oviedo, J. P.; Bykova, J. Harvesting Electrical Energy from Carbon Nanotube Yarn Twist. Science 2017, 357 (6353), 773–778.
(21) 	Hu, D.; Gong, W.; Di, J.*; Li, D.; Li, R.; Lu, W.; Gu, B.; Sun, B.; Li, Q. Strong Graphene-Interlayered Carbon Nanotube Films with High Thermal Conductivity. Carbon 2017, 118, 659–665.
(20) 	Choi, C.; Kim, J. H.; Sim, H. J.; Di, J.; Baughman, R. H.; Kim, S. J. Microscopically Buckled and Macroscopically Coiled Fibers for Ultra‐Stretchable Supercapacitors. Adv. Energy Mater. 2017, 7 (6), 1602021.
(19) 	孙良芳; 李儒; 邸江涛*; 丁鹏; 李清文. (PEDOT-PSS)-碳纳米管复合膜硅基太阳能电池. 复合材料学报 2017, 34 (11), 2385–2391.
(18) 	Haines, C. S.; Li, N.; Spinks, G. M.; Aliev, A. E.; Di, J.; Baughman, R. H. New Twist on Artificial Muscles. Proc. Natl. Acad. Sci. 2016, 113 (42), 11709–11716.
(17) 	Di, J.; Zhang, X.; Yong, Z.; Zhang, Y.; Li, D.; Li, R.; Li, Q. Carbon-Nanotube Fibers for Wearable Devices and Smart Textiles. Adv. Mater. 2016, 28 (47), 10529–10538.
(16) 	Di, J.; Fang, S.; Moura, F. A.; Galvão, D. S.; Bykova, J.; Aliev, A.; de Andrade, M. J.; Lepró, X.; Li, N.; Haines, C. Strong, Twist‐Stable Carbon Nanotube Yarns and Muscles by Tension Annealing at Extreme Temperatures. Adv. Mater. 2016, 28 (31), 6598–6605.
(15) 	Choi, C.; Lee, J. M.; Kim, S. H.; Kim, S. J.; Di, J.; Baughman, R. H. Twistable and Stretchable Sandwich Structured Fiber for Wearable Sensors and Supercapacitors. Nano Lett. 2016, 16 (12), 7677–7684.
(14) 	Liu, Z.; Fang, S.; Moura, F. A.; Ding, J.; Jiang, N.; Di, J.; Zhang, M.; Lepró, X.; Galvão, D.; Haines, C. Hierarchically Buckled Sheath-Core Fibers for Superelastic Electronics, Sensors, and Muscles. Science 2015, 349 (6246), 400–404.
(13) 	Zhang, J.; Chen, H.; Li, H.; Di, J.; Chen, M.; Geng, F.; Zhao, Z.; Li, Q. Boosting Electrocatalytic Performances of Palladium Nanoparticles by Coupling with Metallic Single-Walled Carbon Nanotubes. Chem. Mater. 2014, 26 (9), 2789–2794.
(12) 	Li, R.; Di, J.; Yong, Z.; Sun, B.; Li, Q. Polymethylmethacrylate Coating on Aligned Carbon Nanotube–Silicon Solar Cells for Performance Improvement. J. Mater. Chem. A 2014, 2 (12), 4140–4143.
(11) 	Di, J.; Wang, X.; Xing, Y.; Zhang, Y.; Zhang, X.; Lu, W.; Li, Q.; Zhu, Y. Dry-Processable Carbon Nanotubes for Functional Devices and Composites. Small 2014, 10 (22), 4606–4625.
(10) 	康黎星; 邸江涛; 张永毅; 李清文. 碳纳米管阵列的可控生长及应用. 科学通报 2014, 59 (33), 3264–3279.
(9) 	Di, J.; Yong, Z.; Zheng, X.; Sun, B.; Li, Q. Aligned Carbon Nanotubes for High‐Efficiency Schottky Solar Cells. Small 2013, 9 (8), 1367–1372.
(8) 	Di, J.; Yong, Z.; Yao, Z.; Liu, X.; Shen, X.; Sun, B.; Zhao, Z.; He, H.; Li, Q. Robust and Aligned Carbon Nanotube/Titania Core/Shell Films for Flexible TCO‐Free Photoelectrodes. Small 2013, 9 (1), 148–155.
(7) 	Chen, H.; Di, J.; Jin, Y.; Chen, M.; Tian, J.; Li, Q. Active Carbon Wrapped Carbon Nanotube Buckypaper for the Electrode of Electrochemical Supercapacitors. J. Power Sources 2013, 237, 325–331.
(6) 	Yao, Z.; Di, J.; Yong, Z.; Zhao, Z.-G.; Li, Q. Aligned Coaxial Tungsten Oxide/Carbon Nanotube Sheet: A Flexible and Gradient Electrochromic Film. Chem. Commun. 2012, 48, 8252–8254.
(5) 	Di, J.; Hu, D.; Chen, H.; Yong, Z.; Chen, M.; Feng, Z.; Zhu, Y.; Li, Q. Ultrastrong, Foldable and Highly Conductive Carbon Nanotube Film. ACS Nano 2012, 6 (6), 5457–5464.
(4) 	Chen, H.; Chen, M.; Di, J.; Xu, G.; Li, H.; Li, Q.-W. Architecting Three-Dimensional Networks in Carbon Nanotube Buckypapers for Thermal Interface Materials. J. Phys. Chem. C 2012, 116 (6), 3903–3909.
(3) 	Jia, J.; Zhao, J.; Xu, G.; Di, J.; Yong, Z.; Tao, Y.; Fang, C.; Zhang, Z.; Zhang, X.; Zheng, L. A Comparison of the Mechanical Properties of Fibers Spun from Different Carbon Nanotubes. Carbon 2011, 49 (4), 1333–1339.
(2) 	Di, J.; Yong, Z.-Z.; Yang, X.-J.; Li, Q.-W. Structural and Morphological Dependence of Carbon Nanotube Arrays on Catalyst Aggregation. Appl. Surf. Sci. 2011, 258 (1), 13–18.
(1) 	Zhao, J.; Zhang, X.; Di, J.; Xu, G.; Yang, X.; Liu, X.; Yong, Z.; Chen, M.; Li, Q. Double‐Peak Mechanical Properties of Carbon‐Nanotube Fibers. Small 2010, 6 (22), 2612–2617.

#:Equal Contribution
*:Corresponding Author

小组成员:

更新于2019-08-21
 
研究方向 Research direction
1、智能与仿生材料化学
2、新型碳功能材料
 
招生信息 Enrollment information
课题组目前承担科技部纳米专项、国家自然科学基金、科技委基础加强重点项目、中科院及纳米所启动经费等项目,经费充足。我们将为大家提供良好的实验室条件、宽松的科研氛围、丰厚的科研补贴(博士生不低于5000元/月)和论文奖励。

2020招生更新(2019-8-21):
欢迎对碳基能源器件相关方向(人工肌肉、电池、电催化等)感兴趣的同学报考。
1.博士名额基本已满
2.欢迎意向硕博连读的同学报考,并与我联系。

欢迎同学和我联系: 
Email:jtdi2009@sinano.ac.cn; jiangtao.di@outlook.com
WeChat:dijt_wechat
电话:0512-62873515
地址:江苏省苏州市苏州工业园区若水路398号
 
论文专著 The monograph Researcher ID
1) Strong, Twist-Stable Carbon Nanotube Yarns and Muscles by Tension Annealing at Extreme Temperatures. - Advanced Materials - 201608 - 2016年第二十八期
2) Carbon-Nanotube Fibers for Wearable Devices and Smart Textiles. - Advanced Materials - 201612 - 2016年第二十八期
3) Harvesting electrical energy from carbon nanotube yarn twist. - Science - 201708 - 2017年第三百五十七期
4) Crosslinked Carbon Nanotube Aerogel Films Decorated with Cobalt Oxides for Flexible Rechargeable Zn-Air Batteries - Small - 201706 - 2017年第十三期
5) In-situ Twisting for Stabilizing and Toughing Conductive Graphene Yarns - Nanoscale - 201707 - 2017年第九期
6) Strong graphene-interlayered carbon nanotube films with high thermal conductivity - Carbon - 201707 - 2017年第一百一十八期
7) Ultra-Lightweight and Highly Adaptive All-Carbon Elastic Conductors with Stable Electrical Resistance. - Advanced Functional Materials - 201704 - 2017年第二十七期
8) High Power Density Electrochemical Thermocells for Inexpensively Harvesting Low-Grade Thermal Energy. - Advanced Materials - 201703 - 2017年第二十九期
9) Microscopically Buckled and Macroscopically Coiled Fibers for Ultra-Stretchable Supercapacitors. - Advanced Energy Materials - 201703 - 2017年第七期
10) Twistable and Stretchable Sandwich Structured Fiber for Wearable Sensors and Supercapacitors. - Nano Letters - 201611 - 2016年第十六期
11) New twist on artificial muscles. - PNAS - 201610 - 2016年第一百一十三期
12) Hierarchically buckled sheath-core fibers for superelastic electronics, sensors, and muscles. - Science - 201507 - 2015年第三百四十九期
 
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