王慧奇,男,博士,山西省優秀青年學術帶頭人。現為中北大學副教授,碩士生導師。主要從事能源存儲材料設計與技術開發研究。在Small,J. Mater. Chem. A,Carbon、J. Power Sources,Electrochimica Acta 等高影響新能源期刊上發表SCI論文近20篇,獲授權國家發明專利3項,曾擔任2017年中國(國際)能源化學會議的組委並成功組織了該會議順利召開。作為負責人主持國家自然科學基金、山西省重點研發計畫、山西省青年科學基金、山西省高等學校科技創新計畫等。作為核心骨幹參研國家級、省部級項目6項。參研教改項目2項。中國化學會會員、中國化工學會會員,多份期刊(Chemistry of materials、ACS Sustainable Chemistry & Engineering、The Journal of physical chemistry、Carbon、Journal of power sources、Journal of Solid State Electrochemistry)特約審稿人。
基本介紹
- 中文名:王慧奇
- 國籍:中國
- 畢業院校:中國科學院山西煤炭化學研究所
- 學位/學歷:工學博士
- 專業方向:碳質功能材料
人物經歷,研究領域,科研項目,代表性論著,
人物經歷
2013年7月畢業於中國科學院山西煤炭化學研究所,獲得博士學位,2013年8月就職於中北大學材料科學與工程學院,2017年12月獲得中北大學副教授專業技術職務和碩士生指導老師資格。
研究領域
1、碳質功能材料在能源領域的套用(鋰離子電池負極材料等方面)
2、高模碳纖維的製備技術開發(催化石墨化方面等)
科研項目
1、 高儲鈉能力類石墨烯硼碳新結構的製備及調控機制,國家自然科學基金,主持,
2、原子晶體硼對炭材料微觀結構的可控構築及與鋰離子儲能的相關性,山西省青年基金項目,主持
3、高速列車剎車閘片用C/C-SiC複合材料的製備新技術開發,山西省重點研發計畫,主持
4、鋼筋混凝土表面煤基超疏水炭塗層的仿生設計、構築及其防護機理研究, 山西高等學校科技創新項目,主持
5、硼原子改性多孔炭材料抗氧化機制分析,中北大學青年科學基金,主持
代表性論著
(ResearcherID: C-2960-2017)
16. Three-dimensional B-doped porous carbon framework anchored with ultrasmall PbO/Pb nanocrystals for lithium storage. Ceramics International, 2017, 43: 12442-12451.
15. Highly microporous graphite-like BCxO3-x/C nanospheres for anode materials of lithium-ion batteries. Journal of Materials Chemistry A 2017, 5(6): 2835-2843. (IF=8.867)
14. Microstructural evolution and oxidation resistance of polyacrylonitrile–based carbon fibers doped with boron by the decomposition of B4C, CARBON, 56: pp296–308, 2013. (SCI, IF=6.337)
13. Microstructure and thermophysical properties of B4C/graphite composites containing substitutional boron, CARBON, 52, pp10–16, 2013. (SCI, IF=6.337)
12. A facile route for PbO@C Nanocomposites: An Electrode Candidate for Lead–acid Batteries with Enhanced Capacitance,JOURNAOL OF POWER SOURCES, 224, pp125–131, 2013. (SCI, EI, IF=6.396)
11. Structural evolution of rayon-based carbon fibers induced by doping boron, RSC advances , 4, pp59150-59156, 2014 (SCI, IF=3.708)
10. Fabrication of boron-doped carbon fibers by the decomposition of B4C and its excellent rate performance as an anode material for lithium-ion batteries. Solid State Sciences, 41, pp36-42, 2015. (SCI, IF=1.679)
9. Multiscale carbon nanosphere-carbon fiber reinforcement for cement-based composites with enhanced high-temperature resistance, Journal of Materials Science, 50, pp2038-2048, 2015. (SCI, IF=2.305)
8. Effect of boron-catalyzed graphitization on the mechanical properties and microstructure of carbon fibers, NEW CARBON MATERIALS, 30, pp122-7, 2015 (SCI, IF=1.308)
7. Preparation and Characterization of PbO@ C Nanocomposites. Chemical CHEMICAL JOURNAL OF CHINESE UNIVERSITIES-CHINESE. 30, pp1287-9, 2009.
(SCI, IF=0.954)
6. A sandwich structure graphite block with excellent thermal and mechanical properties reinforced by in-situ grown carbon nanotubes. CARBON, 51, pp427-30, 2013. (SCI, EI, IF=6.160)
5. Microstructure and thermal/mechanical properties of short carbon fiber-reinforced natural graphite flake composites with mesophase pitch as the binder. CARBON, 53, pp313-20, 2013. (SCI, EI, IF=6.160)
4. Exfoliated graphite as a flexible and conductive support for Si-based Li-ion battery anodes. CARBON,72, pp38-46, 2014. (SCI, EI, IF=6.160)
3. The structure of MB2-MC-C (M=Zr, Hf, Ta) multi-phase ceramic coatings on graphite.Journal of the European Ceramic Society, 34, pp895-904, 2014. (SCI, IF=2.307)
2. The reaction behavior of carbon fibers and TaC at high temperatures. Crystengcomm, 15, pp6928-31, 2013. (SCI, IF=3.858)
1. Fabrication and supercapacitive properties of Fe2O3@C nanocomposites. Materials Letters, 80, pp121-3, 2012. (SCI, IF=2.269)
