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沈斌,研究員

沈斌,研究員,博士生導師

郵箱:shenbin@nimte.ac.cn

電話:0574-86693021

辦公室:材料所B401

 

教育與工作經(jīng)曆:

2021.01-至今   中科院甯波材料所高分子實驗室,研究員

2018.08-2020.12 中科院甯波材料所高分子實驗室“春蕾人才”副研究員

2017.01-2018.07 中科院甯波材料所高分子實驗室,副研究員

2014.08-2016.12 中科院甯波材料所高分子實驗室,博士後(hòu)/助理研究員

2009.09-2014.07 中國(guó)科學(xué)院大學(xué)/中科院甯波材料所,博士學(xué)位

2005.09-2009.07 浙江大學(xué)材料與化學(xué)工程學(xué)院,學(xué)士學(xué)位

 

研究方向(xiàng):

聚合物複合材料和發(fā)泡材料及其功能(néng)性研究(電磁屏蔽、吸波、介電等);

聚合物功能(néng)材料的結構-性能(néng)間的關系;

石墨烯、MXene等納米材料的制備、改性及其在聚合物複合材料中的應用;

 

個人簡介:

        沈斌博士從事(shì)納米材料及聚合物複合材料和發(fā)泡材料的制備以及功能(néng)性(電磁屏蔽、吸波和介電性能(néng))的相關研究,與合作者共同提出了以功能(néng)納米填料複合并結合發(fā)泡的研究策略實現高性能(néng)輕質高分子材料的可控制備與功能(néng)化,探索了功能(néng)填料選擇性分散/結構設計調控材料性能(néng),闡釋了微觀泡孔結構與材料宏觀性能(néng)的構效關系,爲輕質高分子功能(néng)材料的設計和制備提供了相應指導,作爲主要貢獻人的項目“輕質高分子功能(néng)材料”獲2019年甯波市科技進(jìn)步一等獎(2/8)和2020年浙江省自然科學(xué)二等獎(2/4)。已經(jīng)以第一/通訊作者在Advanced Functional Materials、Materials Today Physics、Chemical Engineering Journal、Carbon 和 ACS Materials Letters等知名學(xué)術期刊發(fā)表論文48篇,被(bèi)引用5200餘次(截止2023.07),7篇論文入選ESI高被(bèi)引,授權中國(guó)發(fā)明專利十餘項。先後(hòu)入選甯波市領軍和拔尖人才培養工程、中科院青年創新促進(jìn)會會員。

 

近五年代表性論文:

[1].Jiali Chen, Lei Wang, Bin Shen,* Wenge Zheng. Biomass-based Co/C@Carbon composites derived from MOF-modified cotton fibers for enhanced electromagnetic attenuation. Carbon, 2023, 210, 118035.

[2].Zhefeng Xu, Jiali Chen, Bin Shen,* Yongqing Zhao, Wenge Zheng. A proof-of-concept study of auxetic composite foams with negative poisson’s ratio for enhanced strain-stable performance of electromagnetic shielding. ACS Materials Letters, 2023, 5, 421-428.

[3].Yang Li,* Jingjing Liu, Enwei Wang, Bin Shen,* Jiali Chen, Man Zhang, Feng Zhang, Junwei Zhao,* Wenge Zheng. Controllable growth of NiCo compounds with different morphologies and structures on carbon fabrics as EMI shields with improved absorptivity. Carbon, 2022, 197, 508-518.

[4].Pengke Huang, Yaozhuo Su, Fei Wu,* Patrick C. Lee, Haibin Luo, Xiaoqin Lan, Liyang Zhang, Bin Shen,* Long Wang,* Wenge Zheng. Extruded polypropylene foams with radially gradient porous structures and selective filtration property via supercritical CO2 foaming. Journal of CO2 Utilization, 2022, 60, 101995.

[5].Zhouping Sun, Bin Shen,* Yang Li,* Jiali Chen, Wenge Zheng. High-performance porous carbon foams via catalytic pyrolysis of modified isocyanate-based polyimide foams for electromagnetic shielding. Nano Research, 2022, 15, 6851-6859.

[6].Guoqing Wang, Da Yi, Xichen Jia, Jiali Chen, Bin Shen,* Wenge Zheng. Structural design of compressible shape-memory foams for smart self-fixable electromagnetic shielding with reduced reflection. Materials Today Physics, 2022, 22, 100612.

[7].Jiali Chen, Bin Shen,* Xichen Jia, Yinfeng Liu, Wenge Zheng.* Lightweight and compressible anisotropic honeycomb-like graphene composites for highly tunable electromagnetic shielding with multiple functions. Materials Today Physics, 2022, 24, 100695.

[8].Xichen Jia, Yang Li, Bin Shen,* Wenge Zheng.* Evaluation, fabrication and dynamic performance regulation of green EMI-shielding materials with low reflectivity: A review. Composites Part B: Engineering, 2022, 233, 109652.

[9].Zhouping Sun, Jiali Chen, Xichen Jia, Guoqing Wang, Bin Shen,* Wenge Zheng. Humidification of high-performance and multifunctional polyimide/ carbon nanotube composite foams for enhanced electromagnetic shielding. Materials Today Physics, 2021, 21, 100521.

[10].Jiali Chen, Da Yi,* Xichen Jia, Guoqing Wang, Zhouping Sun, Lihua Zhang, Yinfeng Liu, Bin Shen,* Wenge Zheng. Biomass-based aligned carbon networks with double-layer construction for tunable electromagnetic shielding with ultra-low reflectivity. Journal of Materials Science & Technology, 2022, 103, 98-104.

[11].Xichen Jia, Bin Shen,* Lihua Zhang, Wenge Zheng. Construction of compressible Polymer/MXene composite foams for high-performance absorption-dominated electromagnetic shielding with ultra-low reflectivity. Carbon, 2021, 173, 932-940.

[12].Xichen Jia, Bin Shen,* Lihua Zhang, Wenge Zheng. Construction of shape-memory carbon foam composites for adjustable EMI shielding under self-fixable mechanical deformation. Chemical Engineering Journal, 2021, 405, 126927.

[13].Xichen Jia, Bin Shen,* Lihua Zhang, Wenge Zheng. Waterproof MXene-decorated wood-pulp fabrics for high-efficiency electromagnetic interference shielding and Joule heating. Composites Part B: Engineering, 2020, 198, 108250.

[14].Pengke Huang, Fei Wu, Bin Shen,* Hao Zheng, Qian Ren, Haibin Luo, Wenge Zheng.* Biomimetic porous polypropylene foams with special wettability properties. Composites Part B: Engineering, 2020, 190, 107927.

[15].Yang Li,* Jingjing Liu, Shengqiang Wang, Lihua Zhang, Bin Shen.* Self-templating graphene network composites by flame carbonization for excellent electromagnetic interference shielding. Composites Part B: Engineering, 2020, 182, 107615.

[16].Pengke Huang, Fei Wu, Bin Shen,* Xiaohui Ma, Yongqing Zhao, Minghui Wu, Jin Wang, Zhihua Liu, Haibin Luo, Wenge Zheng.* Bio-inspired lightweight polypropylene foams with tunable hierarchical Ttubular porous structure and its application for oil-water separation. Chemical Engineering Journal, 2019, 370, 1322-1330.

[17].Da Yi,# Bin Shen,# Xingchang Wei,* Li Tong, Yili Xu, Jun Li, Shuai Xu, Yaojiang Zhang, Wenge Zheng, Yanbin Yang. Sub-wavelength Periodic shielding materials Towards Enhanced Shielding of the Incomplete Enclosure. IEEE Microwave and Wireless Components Letters, 2019, 29, 113.

[18].Xiaohui Ma, Yang Li, Bin Shen,* Lihua Zhang, Zeping Chen, Yinfeng Liu, Wentao Zhai,* Wenge Zheng. Carbon Composite Networks with Ultrathin Skin Layers of Graphene Film for Exceptional Electromagnetic Interference Shielding. ACS Applied Materials & Interfaces, 2018, 10, 38255- 38263.

[19].Zeping Chen,# Da Yi,# Bin Shen,* Lihua Zhang, Xiaohui Ma, Yongyan Pang, Li Liu, Xingchang Wei, Wenge Zheng.* Semi-transparent biomass-derived macroscopic carbon grids for efficient and tunable electromagnetic shielding. Carbon, 2018, 139, 271-278.

[20].Xiaohui Ma,# Bin Shen,#* Lihua Zhang, Yinfeng Liu, Wentao Zhai,* Wenge Zheng. Porous superhydrophobic polymer/carbon composites for lightweight and self-cleaning EMI shielding application. Composites Science and Technology, 2018, 158, 86-93.

 

日期:2016-09-11, 查看:15602