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张永毅
单位:中国科学院苏州纳米技术与纳米仿生研究所
地址:江苏省苏州工业园区若水路398号
邮编:215123
电话:0512-62872790
个人主页: http://amd.sinano.ac.cn/rcdwshow.asp?cid=4&id=20
实验室介绍:
 
个人简历 Personal resume
张永毅,1981年生人,男,博士,九三学社社员、中科院苏州纳米所研究员、博士生导师,现任中科院苏州纳米所南昌研究院材料部主任、第七届江西省自然科学基金委员会委员、江西省烯碳材料重点实验室主任,为中科院青促会会员、江西省“双千计划”及江西省百千万人才工程入选者、江苏省“企业创新岗位”特聘专家,享南昌市人民政府特殊津贴。2002年毕业于北京师范大学,2008年北京大学物理化学专业博士,后先后在美国密歇根大学安娜堡分校、美国南达科他大学从事博士后研究,2011年加入中科院苏州纳米所。长期从事碳纳米管、石墨烯等纳米碳材料的可控制备、控制组装、性能调控及产业应用技术研究。近年来主要研究方向包括:(1)碳纳米管纤维的连续制备及高性能化;(2)纳米碳纤维/薄膜的可控制备与导热性能研究;(3)高性能纤维复合材料3D打印技术研究。主持国家基金3项,省级重点研发计划2项,其他省部级项目10余项,骨干参与国家重点研发计划等重大项目近10项,在研项目经费2000余万元。近年来合著《碳纳米管纤维》专著1本,在Adv. Funct. Mater., ACS Nano等期刊发表SCI论文50余篇,申请专利近40项,授权10余项。曾获江苏省科技三等奖。
 
研究方向 Research direction
1、碳纳米管纤维的连续制备及高性能化
2、纳米碳纤维/薄膜的可控制备与导热性能研究
3、高性能纤维复合材料3D打印技术研究
 
招生信息 Enrollment information
所需生源知识背景:有CVD经验经验,或高分子材料、高性能纤维背景;表达能力突出,动手能力强。
考试科目:物理化学,数学/无机化学
联系方式:yyzhang2011@sinano.ac.cn, 15298894711
科研条件:团队30余人,实验室面积3000m2,固定资产2000余万元;拥有比较完备的碳纳米管纤维研发、纳米碳材料分散复合与能源应用、高性能复合材料3D打印技术研发及相关分析测试设施。
学生待遇:从优。
 
论文专著 The monograph
1) Sunlight-driven Coaxial Fiber-shaped Mine Gas Photofuel Cell for Efficient Electricity Generation - Advanced Functional Materials - 2019 - 2019, 29, 1906813
2) Flexible visible-light-driven photoelectrochemical biosensor based on molecularly imprinted nanoparticle intercalation-modulated graphene fiber for ultrasensitive urea detection - Carbon - 2020 - 2020, 157, 457-465
3) Direct spinning of high-performance graphene fiber supercapacitor with a three-ply core-sheath structure - Carbon - 2018 - 2018, 132: 241-248
4) Programmable Writing of Graphene Oxide/Reduced Graphene Oxide Fibers for Sensible Networks with in Situ Welded Junctions - ACS Nano - 2014 - 2014, 8(5): 4325-4333
5) Nanoparticle intercalation-modulated stretchable conductive graphene fibers with combined photoelectric properties - Carbon - 2019 - 2019, 141:218-225
6) lexible and smart fibers decorated with Ag nanoflowers for highly active SERS detecting - Journal of Raman Spectroscopy - 2019 - 2019, 50(10),1468-1476
7) Through-thickness thermal conductivity enhancement of graphite film/epoxy composite via duration acidizing modification - Applied Surface Science - 2018 - 2018, 422: 170-177
8) Soft and MRI compatible neural electrodes from carbon nanotube fibers - Nano Letters - 2019 - 2019, 19, 3, 1577-1586
9) Carbon-Nanotube fibers for wearable devices and smart textiles. Advanced Materials - Advanced Materials - 2016 - 2016, 28(47): 10529~10538
10) In-situ Twisting for Stabilizing and Toughing Conductive Graphene Yarns - Nanoscale - 2017 - 2017,9, 11523–11529
11) Rational control on floating catalysts for the growth of carbon nanotube assembiles:from verticall aligned carbon nanotube arrays to carbon nanotube films - Applied Surface Science - 2015 - 2015, 353 (2015) 651–661
12) Grooved nanoplate assemply for rapidly surface enhanced Raman scattering detecting - Nanoscale - 2017 - 9(40):15390-15396
13) Mechanical and electrical properties of laminated composites containing continuous carbon nanotube film interleaves - Composites Science and Technology - 2016 - 127 (2016) 113-118
14)  Oxygen Evolution Assisted Fabrication of Highly Loaded Carbon Nanotube/MnO 2 Hybrid Films for H igh-Performance Flexible Pseudosupercapacitors - Small - 2016 - 2016, 12, No. 15, 2035–2045
15) Ultrastrong carbon nanotube/bismaleimide composite film with super-aligned and tightly packing structure - Composites Science and Technology - 2015 - 117 (2015) 176e18
16) Transfer of vertically aligned carbon nanotube arrays onto flexible substrates for gecko-inspired dry adhesive application - RSC Advances - 2015 - 2015,5, 46749
17) Towards formation of fibrous woven memory devices from all-carbon electronic fibers - Phys.Chem.Chem.Phys., - 2015 - 2015, 17, 7104
18) Origins of height distribution within carbon nanotube arrays - Journal of Nano Research - 2015 - 2015 , 32 :17-24
19) Noble metal-comparable SERS enhancement from semiconducting metal oxides by making oxygen vacancies - Nature Communications - 2015 - 2015 , 6 (6, 7) :7800
20) Interlocked CNT networks with high damping and storage molulus - Carbon - 2015 - 86 (2015) 46–53
21) Bio-Inspired Aggregation Control of Carbon Nanotubes for UltraStrong Composites - Scientific Reports - 2015 - 11533(2015)
22) Fabrication and functionalization of carbon nanotube films for high-performance flexible supercapacitors - Carbon - 2015 - 92 (2015) 271–296
23) Strong and Conductive Dry Carbon Nanotube Films by Microcombing - Small - 2015 - 2015, 11, No. 31, 3830–3836
24) Milliseconds Tension-annealing for Enhancing Carbon Nanotube Fibers - Nanoscale - 2019 - 2019, 11, 13909
25) All-solid-state supercapacitors using a highly-conductive neutral gum electrolyte - RSC Advances - 2019 - 2019, 9, 8169-8174
26) Mechanical Properties of Carbon Nanotube Fibers at Extreme Temperature - Nanoscale - 2019 - 2019, 11, 4585-4590
27) A new insight into the rechargeable mechanism of manganese dioxide based symmetric supercapacitors - RSC ADVANCES - 2017 - 2017, 7(14): 8561~8566
28) The loading-rate dependent tensile behavior of CNT film and its bismaleimide composite film - MATERIALS & DESIGN - 2017 - 2017, 117: 37~46
 
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