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陈胜

点击数:   更新日期: 2020-11-17

陈胜1.jpg

    别:男

电子邮箱:shengchen@bjfu.edu.cn

个人主页:https://www.researchgate.net/profile/Sheng-Chen-30

研究方向:林木生物质结构解译与功能化

工作经历

2020/09至今,北京林业大学,材料科学与技术学院,讲师

 

教育经历

2015/09-2020/06,北京林业大学,林产化学加工工程,博士

2018/10-2019/11,美国威斯康星大学麦迪逊分校,发现研究所,联合培养博士研究生

2011/09-2015/07,北京林业大学,林产化工(制浆造纸方向),学士

 

主讲课程

《太阳能利用原理与技术》、《生物质发电技术》、《生物质能源专业英语》

 

科研工作及成果

主要从事林木生物质超微结构解译与功能化利用研究,包括木材细胞壁微区化学及木质纤维素基光管理、能源储存/收集、智能传感、水处理等先进功能材料。迄今在Advanced Functional MaterialNano EnergyACS Applied Materials & Interfaces等国际知名期刊发表SCI论文22篇,其中第一/通讯作者SCI论文14篇,影响因子大于15的论文2篇。入选博士后创新人才支持计划北京市科技新星计划

奖励及荣誉称号

2018 宝钢优秀学生奖

2018 博士国家奖学金

2019 北京林业大学校长奖学金

2019 中国林学会梁希优秀学子奖

2019 北京林业大学研究生学术论坛一等奖

2020 北京林业大学优秀博士学位论文

2021 北京林业大学第十七届青年教学基本功比赛 三等奖

 

学术/社会兼职

中国化学会会员

中国林学会会员

ACS Applied Materials & InterfacesCelluloseMaterials等期刊审稿人

发表学术论文

1.        Li,   J.; Yang, Z.; Ding, T.; Song, Y.-J.; Li, H.-C.; Li, D.*; Chen, S.*; Xu, F. The Role of Surface Functional Groups of Pectin   and Pectin-Based Materials on the Adsorption of Heavy Metal Ions and Dyes. Carbohydrate   Polymers 2022, 276, 118789. https://doi.org/10.1016/j.carbpol.2021.118789.

2.        Zhang,   J.; Guo, Z.; Chen, S.*; Dong, H.;   Zhang, X.; Qin, Y.; Yao, C.; Xu, F.* High-Barrier, Strong, and Antibacterial   Paper Fabricated by Coating Acetylated Cellulose and Cinnamaldehyde for Food   Packaging. Cellulose 2021, 28 (7), 4371?4384. https://doi.org/10/gk78vp.

3.        Xu,   Y.; Tong, Y.; Yan, F.; Chen, S.;   Xu, F.* Bioinspired Redox-Driven NAD+ Pump Membranes with Composition of   Annulated and Cylindrical Channel. Electrochimica Acta 2021, 367,   137504. https://doi.org/10/gh299n.

4.        Xu,   Y.; Chen, S.; Xu, F.*   Photosynthesis-Inspired Effective Light-Gated Nanofluidic Diode Based on the   Electron-Transfer Process. J. Phys. Chem. C 2021, 125   (23), 12886?12892. https://doi.org/10/gkgq5t.

5.        Song,   Y.; Xu, Y.; Li, D.; Chen, S.*; Xu,   F.* Sustainable and Superhydrophobic Lignocellulose-Based Transparent Films   with Efficient Light Management and Self-Cleaning. ACS Appl. Mater. Interfaces   2021, 13 (41), 49340?49347. https://doi.org/10.1021/acsami.1c14948.

6.        Song,   Y.; Chen, S.*; Chen, Y.; Xu, Y.;   Xu, F*. Biodegradable and Transparent Films with Tunable UV-Blocking Property   from Lignocellulosic Waste by a Top-down Approach. Cellulose 2021.   https://doi.org/10/gmk2p5.

7.        Nawaz,   H.; Zhang, X.; Chen, S.; You, T.;   Xu, F.* Recent Studies on Cellulose-Based Fluorescent Smart Materials and   Their Applications: A Comprehensive Review. Carbohydrate Polymers 2021,   267, 118135. https://doi.org/10/gmk2p6.

8.        Guo,   S.; Li, H.; Zhang, X.; Nawaz, H.; Chen,   S.*; Zhang, X.; Xu, F.* Lignin Carbon Aerogel/Nickel Binary Network for   Cubic Supercapacitor Electrodes with Ultra-High Areal Capacitance. Carbon   2021, 174, 500?508. https://doi.org/10/gh299q.

9.        Chen, S.; Chen, Y.; Li, D.; Xu, Y.;   Xu, F.* Flexible and Sensitivity-Adjustable Pressure Sensors Based on   Carbonized Bacterial Nanocellulose/Wood-Derived Cellulose Nanofibril   Composite Aerogels. ACS Appl. Mater. Interfaces 2021,   acsami.0c21392. https://doi.org/10/gh4c72.

10.     Shi,   X.; Chen, S.; Zhang, H.; Jiang,   J.; Ma, Z.; Gong, S.* Portable Self-Charging Power System via Integration of   a Flexible Paper-Based Triboelectric Nanogenerator and Supercapacitor. ACS   Sustainable Chem. Eng. 2019, 7 (22), 18657?18666. https://doi.org/10/gh299p.

11.     Chen, S.; Jiang, J.; Xu, F.*; Gong,   S.* Crepe Cellulose Paper and Nitrocellulose Membrane-Based Triboelectric   Nanogenerators for Energy Harvesting and Self-Powered Human-Machine   Interaction. Nano Energy 2019, 61, 69?77. https://doi.org/10/gh299s.

12.     Chen, S.; Song, Y.; Xu, F.* Highly   Transparent and Hazy Cellulose Nanopaper Simultaneously with a Self-Cleaning   Superhydrophobic Surface. ACS Sustainable Chem. Eng. 2018, 6   (4), 5173?5181. https://doi.org/10/gdcz3q.

13.     Chen, S.; Song, Y.; Xu, F.*   Flexible and Highly Sensitive Resistive Pressure Sensor Based on Carbonized   Crepe Paper with Corrugated Structure. ACS Appl. Mater. Interfaces 2018,   10 (40), 34646?34654. https://doi.org/10/gfd8b5.

14.     Chen, S.; Song, Y.; Ding, D.; Ling,   Z.; Xu, F.* Flexible and Anisotropic Strain Sensor Based on Carbonized Crepe   Paper with Aligned Cellulose Fibers. Adv. Funct. Mater. 2018, 28   (42), 1802547. https://doi.org/10/gh299t.

15.     Chen, S.; Ling, Z.; Zhang, X.; Kim,   Y. S.; Xu, F.* Towards a Multi-Scale Understanding of Dilute Hydrochloric   Acid and Mild 1-Ethyl-3-Methylimidazolium Acetate Pretreatment for Improving   Enzymatic Hydrolysis of Poplar Wood. Industrial Crops and Products 2018,   114, 123?131. https://doi.org/10/gc8482.

16.     Zhang,   X.; Chen, S.; Xu, F.* Combining   Raman Imaging and Multivariate Analysis to Visualize Lignin, Cellulose, and   Hemicellulose in the Plant Cell Wall. JoVE 2017, No. 124,   55910. https://doi.org/10/ggczw5.

17.     Zhang,   X.; Chen, S.; Ramaswamy, S.; Kim,   Y. S.; Xu, F.* Obtaining Pure Spectra of Hemicellulose and Cellulose from   Poplar Cell Wall Raman Imaging Data. Cellulose 2017, 24   (11), 4671?4682. https://doi.org/10/gchxp3.

18.     Zhang,   X.; Chen, S.; Ling, Z.; Zhou, X.;   Ding, D.-Y.; Kim, Y. S.; Xu, F.* Method for Removing Spectral Contaminants to   Improve Analysis of Raman Imaging Data. Sci Rep 2017, 7   (1), 39891. https://doi.org/10/f9jsfr.

19.     Ling,   Z.; Chen, S.; Zhang, X.; Xu, F.*   Exploring Crystalline-Structural Variations of Cellulose during Alkaline   Pretreatment for Enhanced Enzymatic Hydrolysis. Bioresource Technology   2017, 224, 611?617. https://doi.org/10/f9v682.

20.     Ling,   Z.; Chen, S.; Zhang, X.; Takabe,   K.; Xu, F.* Unraveling Variations of Crystalline Cellulose Induced by Ionic   Liquid and Their Effects on Enzymatic Hydrolysis. Sci Rep 2017,   7 (1), 10230. https://doi.org/10/gbwbch.

21.     Chen, S.; Zhang, X.; Ling, Z.; Xu,   F.* Characterization of the Micromorphology and Topochemistry of Poplar Wood   during Mild Ionic Liquid Pretreatment for Improving Enzymatic   Saccharification. Molecules 2017, 22 (1), 115. https://doi.org/10/f9v38q.

22.     Chen, S.; Zhang, X.; Ling, Z.; Ji,   Z.; Ramarao, B. V.; Ramaswamy, S.; Xu, F.* Probing and Visualizing the   Heterogeneity of Fiber Cell Wall Deconstruction in Sugar Maple (Acer   Saccharum) during Liquid Hot Water Pretreatment. RSC Adv. 2016,   6 (83), 79297?79306. https://doi.org/10/gh299r.

 

学术报告

1.        Sheng Chen, Feng Xu. Wood-derived cellulose   nanopaper simultaneously with enhanced transparency and a self-cleaning   superhydrophobic surface. 255th ACS National Spring Meeting, 2018, New   Orleans, USA. (Oral Presentation)

2.        Sheng Chen, Feng Xu. Probing and visualizing   the heterogeneity of fiber cell wall deconstruction in sugar maple (Acer   saccharum) during liquid hot water pretreatment. The 3rd East   Asia Microscopy Conference (EAMC3), 2017, Busan, South Korea. (Poster)

3.        Sheng Chen. Lignocellulosic biomass based   functional materials toward sustainable energy and sensing. The 3rd   International Symposium on Biomass Utilization Technologies. 2021, Hangzhou,   China. (Oral Presentation)

4.        陈胜,许凤. 新型纤维素纸基应变与压力传感器及摩擦纳米发电机,第一届中国化学会全国纤维素学术研讨会,2019年,成都(口头报告

5.        陈胜,许凤. 新型纤维素纸基应变/压力传感器及摩擦纳米发电机,第十三届全国研究生生物质能研讨会暨生物质能专委会学术年会,2019年,济南(口头报告

6.        陈胜,许凤. 高透明超疏水纤维素纳米纸,全国林业工程博士生论坛,2016年,南京(优秀口头报告