宋燕

中国科学院山西煤炭化学研究所

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  • 宋燕
  • 研究员
  • 太原市桃园南路27号
简历:

1991年-1995年 河南大学攻读学士学位

1995年-1998年 中国科学院山西煤炭化学研究所攻读硕士学位

1998年-2001年 中国科学院山西煤炭化学研究所攻读博士学位

2001年-迄今 中国科学院山西煤炭化学研究所工作

2005年1月 任副研究员

2012年8月 任研究员

2018年9月 任中国科学院炭材料重点实验室主任

其中2003年-2005年,日本九州大学先导物质化学研究所进行博士后访问研究
研究领域:

多孔炭(包括活性炭纤维、中孔炭等)的制备及应用基础研究;

纳米炭纤维及纳米炭纤维基复合材料的制备及其在超级电容器电极中的应用基础研究;

锂离子电池电极用炭材料及碳/硅复合材料的制备及结构调控

社会任职:
获奖及荣誉:

1、卢嘉锡青年人才奖(2009年)

2、山西省自然科学二等奖(第一完成人,2014年)

3、山西省国防科技工业科技创新一等奖(第二完成人,2015年)

4、山西省直机关五一劳动奖(2015年)

5、山西省学术技术带头人(2019年)

6、 三晋英才之拔尖骨干计划(2019年)
代表论著:

1、Corresponding author,Preparation of Si-based composite encapsulated by an incomplete multifunction-coating for lithium storage. Electrochimica Acta. 2019;295:75-81.

2、Corresponding author,Structural and chemical synergistic e?ect of NiCo2S4 nanoparticles and carbon cloth for high performance binder-free asymmetric supercapacitors. Applied Surface Science. 2019;465:635–642

3、Corresponding author,Hierarchically Multiporous Carbon Nanotube/Co3O4 Composite as an Anode Material for High-Performance Lithium-Ion Batteries. Chem. Eur. J. 2018;24:14477– 14483.

4、Corresponding author,Lignin-based hierarchical porous carbon nanofiber films with superior performance in supercapacitors. Applied Surface Science. 2018;456:568–576.

5、Corresponding author, Porous worm-like NiMoO4 coaxially decorated electrospun carbon nanofiber as binder-free electrodes for high performance supercapacitors and lithium-ion batteries.Applied Surface Science.2018;434: 49–56.

6、Corresponding author,Preparation and one-step activation of nanoporous ultrafine carbon fibers derived from polyacrylonitrile/cellulose blend for used as supercapacitor electrode. J Mater Sci. 2018; 53:4527–4539.

7、Corresponding author,Silylated functionalized silicon-based composite as anode with excellent cyclic performance for lithium-ion battery,Journal of Power Sources.2018;385:84–90.

8、Corresponding author,Synthesis of mesoporous ribbon-shaped graphitic carbon nanofibers with superior performance as efficient supercapacitor electrodes, Electrochimica Acta. 2018; 292: 364-373.

9、Corresponding author,Two-pot synthesis of one-dimensional hierarchically porous Co3O4 nanorods as anode for lithium-ion battery, Journal of Alloys and Compounds. 2018;735:2446-2452.

10、Corresponding author,Flexible carbon nanofiber mats with improved graphitic structure as scaffolds for efficient all-solid-state supercapacitor, Electrochimica Acta. 2017;247:1060–1071.

11、Corresponding author,Double Core–Shell Si@C@SiO2 for Anode Material of Lithium-Ion Batteries with Excellent Cycling Stability, Chem. Eur. J. 2017; 23: 2165 – 2170.

12、Co-first author,High capacitive performance of hollow activated carbon fibers derived from willow catkins, Applied Surface Science. 2017;394:569–577.

13、Corresponding author,All-biomaterial supercapacitor derived from bacterial cellulose.Nanoscale. 2016;8:9146-9150.

14、Corresponding author,A self-assembly strategy for fabricating highly stable silicon/reduced graphene oxide anodes for lithium-ion batteries. New J. Chem. 2016;40:8961-8968.

15、Corresponding author,Bio-inspired hollow activated carbon microtubes derived from willow catkins for supercapacitors with high volumetric performance. Materials Letters. 2016;174:249-252.

16、Corresponding author,Activated pyrolysed bacterial cellulose as electrodes for supercapacitors. Science China Chemistry. 2016; 1(59): 1–5.

17、Corresponding author,Structure Evolution of Ordered Mesoporous Carbons Induced by Water Content of Mixed Solvents Water/Ethanol. Nanoscale Research Letters. 2016;11:361.

18、Corresponding author,Promising biomass-based activated carbons derived from willow catkins for high performance supercapacitors. Electrochimica Acta. 2015;166:1-11.

19、Corresponding author,Synthesis of nitrogen-doped electrospun carbon nanofibers with superior performance as efficient supercapacitor electrodes in alkaline solution. Electrochimica Acta. 2015;185:40-51.

20、Corresponding author,Preparation and electrochemical characteristics of electrospun water-soluble resorcinol/phenol-formaldehyde resin-based carbon nanofibers. RSC Advances. 2015;5(51):40884-40891.

21、Corresponding author,Direct fabrication of ordered mesoporous carbons with super-micropore/ small mesopore using mixed triblock copolymers,Journal of Colloid and Interface Science. 2014, 413:154–158

22、Corresponding author,Exfoliated graphite as a ?exible and conductive support for Si-based Li-ion battery anodes,Carbon. 2014,72:38 – 46

23、Corresponding author,High-performance supercapacitor electrodes based on porous ?exible carbon nano?ber paper treated by surface chemical etching,Chemical Engineering Journal. 2014, 249:216–225

24、Corresponding author,Ion Accumulation and Diffusion Behavior in Micro-/Meso-Pores of Carbon Nano?bers,Journal of The Electrochemical Society. 2014,161 (9) A1330-A1337

25、Corresponding author,One step synthesis of ordered mesoporous carbons with two-dimensional mesostructure by soft templating method using mixed triblock copolymers,Materials Research Innovations. 2014, 18(2):107-111

26、Corresponding author,Self-catalyzed synthesis of mesoporous carbons with tunable pore size and structure by soft-templating method,J Sol-Gel Sci Technol. 2014, 69:47–51

27、Corresponding author,MnO nanoparticles with textured porosity supported on mesoporous carbons,Ceramics International. 2013,39:7773–7778

28、Corresponding author,Preparation and electrochemical performance of heteroatom-enriched electrospun carbon nano?bers from melamine formaldehyde resin,Journal of Colloid and Interface Science. 2013,395:217–223

29、Corresponding author,Preparation and one-step activation of microporous carbon nano?bers for use as supercapacitor electrodes,Carbon. 2013,51:290 – 300

30、Corresponding author,Preparation of ordered mesoporous carbons with an intergrown p6mm and cubic Fd3m pore structure using a copolymer as a template,Journal of Colloid and Interface Science. 2013,401:161–163

31、Corresponding author,Synthesis and electrochemical properties of arti?cial graphite as an anode for high-performance lithium-ion batteries,Carbon. 2013,64 :537 – 556

32、Corresponding author,The electrochemical performance of pitch coke anodes containing hollow carbon nanostructures and nickel nanoparticles for high-power lithium ion batteries,Electrochimica Acta. 2013,112:394– 402

33、Corresponding author,Preparation of highly-ordered mesoporous carbons by organic-organic self-assembly using the reverse amphiphilic triblock copolymer PPO–PEO–PPO with a long hydrophilic chain,Microporous and Mesoporous Material. 2012,159(1) : 81-86

34、Corresponding author,Effect of reduced graphene oxide on the properties of an activated carbon cloth/polyaniline flexible electrode for supercapacitor application. Journal of Power Sources. 2012,217: 6-12

35、Corresponding author,Preparation and capacitive properties of nitrogen-enriched hierarchical porous carbon. International Journal of Electrochemical Science. 2012, 7: 7587-7599

36、Corresponding author,Electrochemical analysis of ordered mesoporous carbons with discriminating pore structure by removing the template with KOH or HF. International Journal of Electrochemical Science. 2012, 7: 7304-7312

37、Corresponding author,In-situ preparation of boron-doped carbons with ordered mesopores and enhanced electrochemical properties in supercapacitors. Journal of the Electrochemical Society. 2012, 159: E177-E182

38、Corresponding author,Phenolic-based carbon nanofiber webs prepared by electrospinning for supercapacitors,Materials letters. 2012,76(1): 211-214

39、Corresponding author,Formation mechanism of carbon foams derived from mesophase pitch,Carbon. 2011,49(2) : 618-624

40、Corresponding author,Tuning the pore size and structure of mesoporous carbons synthesized using an evaporation-induced self-assembly method,Materials letters. 2011,65(14) : 2130-2132

41、Corresponding author,Effects of pitch fluoride on the thermal conductivity of carbon foam derived from mesophase pitch,Carbon. 2010,48(4): 1316-1318

42、Corresponding author,Influence of the pitch fluoride on the electrical conductivity of the activated carbon cloth as electrodes of the supercapacitor,Materials letters. 2010,64: 2673-2675

43、Corresponding author,Effect of surfactant on the pore structure of mesoporous carbon,Microporous and Mesoporous Material. 2008,111(1-3) : 48-54

44、Corresponding author,Pore development of thermosetting phenol resin derived mesoporous carbon through a commercially nanosized template,Materials Science and Engineering: A. 2008,473( 1-2) : 153-157

45、Corresponding author,Influence of high temperature treatment of porous carbon on the electrochemical performance in supercapacitor,Journal of Power Sources. 2008,184(2): 675-681

46、First author,Removal of formaldehyde at low concentration using various activated carbon fibers,Journal of Applied Polymer Science. 2007,106(4): 2151-2157

47、Corresponding author,Carbon foams with high compressive strength derived from mesophase pitch treated by toluene extraction,Carbon. 2007,45(14): 2843-2845

48、Corresponding author,Carbon foams with high compressive strength derived from mixtures of mesocarbon microbeads and mesophase pitch,Carbon. 2007,45(10): 2092-2097

承担科研项目情况:

作为项目负责人或者首席科学家完成或正在承担包括国家863计划、国家自然科学基金、国家军工、山西省重点研发计划、山西省煤基科技攻关重大专项以及山西省自然基金等项目十余项。

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