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教授、研究员
刘节华
点击率:6387 编辑: 来源: 时间:2017-12-06

教师概况:

文本框:

 姓 名:

 刘节华/LIU Jiehua

 职 称:

 教授/Professor

 职 务:


 所属系:

 材料物理与新能源材料/Material   Physics & New Energy Materials

 邮 箱:

liujh@hfut.edu.cn; liuj0042@e.ntu.edu.sg

电话


个人简历:

20142安徽省百人计划、安徽特聘专家

201211合肥工业大学赌钱网站材料物理及新能源材料系,教授、黄山青年学者

20115201211新加坡南洋理工大学先后任研究助理,研究员及项目负责人(Principal     Investigator)

20088 20114新加坡南洋理工大学201111月获博士学位

20078 20086中国科学院化学研究所研究实习员

20056 20075中国科学院化学研究所联合培养研究生

20049 20077武汉轻工大学应用化学获硕士学位

20009 20047齐鲁工业大学应用化学获学士学位

主要研究领域、方向:

太阳能转化材料与器件Solar Energy Conversion     and Devices

钙钛矿单晶、钙钛矿太阳能电池Perovskite     single crystal, Perovskite-based Solar Cells

  

新一代储能器件New-Generation Batteries for Energy     Storage

金属硫电池、金属空气电池Metal-Sulfur     and Metal-Air Batteries

动力电池、快充锂离子电池     Fast-Charging Lithium-Ion Batteries

  

课题组网站: http://futureenergy.weebly.com(FE Lab 未来能源实验室)

http://www.escience.cn/people/liujh/index.html

研究成果(代表性成果):

1储能方向: 大家独创性的开发一系列稳定的锂电池、锂硫、金属空气电极材料(Chemical Communications2017,53     (62), 8703Chemical Communications2017,53     (76), 10568Advanced Materials.2012, 244097Advanced Materials.2011, 23, 998Scientific Reports2015,5,     9782RSC Advances 2015,5, 34088)。大家正在研究新一代高性能储能电池(锂硫、锂空等),初步取得了不错的实验结果。授权国际专利4项。

2新型太阳能电池方向: 大家设计和制备了多重新型的电极材料,使得电池光电转化效率提高了40%以上,并提出了相应的理论(Solar RRL2018CrystEngComm     2016,18 (28), 5257Solar Energy Materials and Solar Cells2016,157, 139Solar Energy Materials and Solar Cells 2015,134, 133Energy     & Environmental Science, 2011, 4, 2054)。

3大家开发了一些列可用于清洁催化和环境保护的新型材料和体系,取得了一些令人满意的成果(Angewandte     Chemie-International Edition,2007,     46, 3313Small,2008, 4,     1796Chemical Communications,     2010, 46, 1670 Chemical Communications, 2011, 47,     6135     Physical Chemistry Chemical Physics,2010, 12, 14449; ACS Applied Materials &     Interfaces2015, 10.1021/acsami.5b07554;ChemElectroChem2015,     10.1002/celc.201500223

多篇成果被被《NPG Asia     Materials》等作为亮点评述

目前承担科研项目:

安徽省百人计划

储能智库联合基金;

国家重点实验室开放基金;

国家自然科学基金;

教育部留学回国基金;

黄山青年学者启动基金;

新加坡国家研究基金委Proof of Concept基金。

获奖情况:

Thermo-Fisher Young Scientist Award 2017

安徽省百人计划、安徽特聘专家 2014

World Future Foundation PhD Prize 2012

国家优秀自费留学生奖学金2011

著作论文(代表作、第一或通讯编辑):

(1) Liu, J. H.*; Liu, X. W.*,     Two-Dimensional Nanoarchitectures for Lithium Storage. Advanced Materials 2012,24 (30), 4097-4111. (影响因子=19.791)

(2) Wei, X. F.; Liu, J. H.*; Chua, Y. Z.; Song, J.     L.; Liu, X. W.*, Fabrication of O (dye)-terminated anatase TiO2 nanosheets for dye     sensitized solar cells. Energy &     Environmental Science 2011,4 (6), 2054-2057. (影响因子=29.518)

(3) Liu, J. H.; Chen, J. S.; Wei, X. F.;     Lou, X. W.*; Liu, X. W.*, Sandwich-Like, Stacked Ultrathin Titanate Nanosheets for     Ultrafast Lithium Storage. Advanced     Materials 2011,23 (8), 998-1002. (影响因子=19.791)

(4) Liu, J. H.; Cheng, S. Q.; Zhang, J. L.;     Feng, X. Y.; Fu, X. G.; Han, B. X.*, Reverse micelles in carbon dioxide with ionic-liquid domains. Angewandte Chemie-International Edition 2007,46 (18), 3313-3315. (影响因子=11.994)

(5) Liu, J. H.; Zhang, J. L.; Cheng, S. Q.;     Liu, Z. M.; Han, B. X. *, DNA-Mediated Synthesis of Microporous Single-Crystal-Like     NaTi2(PO4)3 Nanospheres. Small 2008,4 (11), 1976-1979. (影响因子=8.643)

(6) Sun, W. W.; Liu, J. H.*; Liu, X. Q.; Fan, X. J.;     Zhou, K. A.; Wei, X. F., Bimolecular-induced hierarchical nanoporous     LiTi2(PO4)3/C with superior high-rate and cycling performance. Chemical Communications 2017,53 (62), 8703-8706. (影响因子=6.319)

(7) Xu, J. Q.; Zhou, K.; Chen, F.; Chen,     W.; Wei, X. F.; Liu, X. W. *; Liu, J. H.*, Natural Integrated Carbon Architecture for Rechargeable     Lithium-Sulfur Batteries. ACS     Sustainable Chemistry & Engineering 2016,4 (3), 666-670. (影响因子=5.951)

(8) Liu, J. H.*; Chen, W.; Xing, A. M.;     Wei, X. F.; Xue, D. F., Lithium cell-assisted low-overpotential Li-O2     batteries by in situ discharge activation. Chemical Communications 2017,53 (76), 10568-10571. (影响因子=6.319)

(9) Liu, J. H.*; Shen, A. L.; Wei, X.     F.; Zhou, K. A.; Chen, W.; Chen, F.; Xu, J. Q.; Wang, S. Y. *; Dai, L. M. *, Ultrathin Wrinkled     N-Doped Carbon Nanotubes for Noble-Metal Loading and Oxygen Reduction     Reaction. ACS Applied Materials &     Interfaces 2015,7 (37), 20507-20512. (影响因子=7.504)

(10) Liu, J. H.; Wei, X. F.; Wang, X.; Liu,     X. W.*,     High-yield synthesis of ultrathin silica-based nanosheets and their     superior catalytic activity in H2O2 decomposition. Chemical Communications 2011,47 (21), 6135-6137. (影响因子=6.319)

(11) Liu, J. H.; Wei, X. F.; Yu, Y. L.;     Song, J. L.; Wang, X.; Li, A.; Liu, X. W.*; Deng, W. Q. *, Uniform core-shell     titanium phosphate nanospheres with orderly open nanopores: a highly active     Bronsted acid catalyst. Chemical     Communications 2010,46 (10), 1670-1672. (影响因子=6.319)

(12) Wei, X. F.; Liu, J. H.*, Nanocuboid TiO2     based organic-inorganic hybrids for fast RhB trapping and photodegradation.     Solar Energy     Materials and Solar Cells 2016,157, 139-145. (影响因子=4.784)

(13) Wei, X. F.; Liu, J. H.*; Liu, X. W., Ultrafine     dice-like anatase TiO2 for highly efficient dye-sensitized solar     cells. Solar Energy Materials and     Solar Cells 2015,134, 133-139. (影响因子=4.784)

(14) Chen, W.; Gong, Y. F.; Liu, J. H.*, Recent advances in     electrocatalysts for non-aqueous Li-O2 batteries. Chinese Chemical Letters 2017,28 (4), 709-718. (影响因子=1.932)

(15) Luan, M. Y.; Song, J. L.; Wei, X. F.*; Chen, F.; Liu, J. H.*, Controllable growth of     bulk cubic-phase CH3NH3PbI3 single crystal with exciting room-temperature     stability. CrystEngComm 2016,18 (28), 5257-5261. (影响因子=3.474)

(16) Zhou, K. A.; Fan, X. J.; Chen, W.;     Chen, F.; Wei, X. F.; Li, A.; Liu, J. H.*, Nitrogen-doped     Li4Ti5O12/carbon hybrids derived from inorganic polymer for fast lithium     storage. Electrochimica Acta 2017,247, 132-138. (影响因子=4.798)

(17) Zhou, K.; Fan, X. J.; Wei, X. F.; Liu,     J. H.*, The     strategies of advanced cathode composites for lithium-sulfur batteries. Science China-Technological Sciences 2017,60 (2), 175-185. (影响因子=1.719)

(18) Liu, J. H. *; Wei, X. F.; Liu, X. W.*, Two-Dimensional     Wavelike Spinel Lithium Titanate for Fast Lithium Storage. Scientific Reports 2015,5. (影响因子=4.259)

(19) Liu, J. H. *; Wei, X. F.,     Supercritical synthesis of layered elongated hexagonal titanium phosphate     nanoplates. RSC Advances 2015,5     (10), 7798-7802. (影响因子=3.108)

(20) Liu, J. H.*; Xu, J. Q.; Zhou, K.;     Wang, L.; Wei, X. F., Amorphous titanate-crosslinking N-rich carbon hybrid     with 3D channels for fast lithium storage. RSC Advances 2015,5 (43), 34088-34093. (影响因子=3.108)

(21) Liu, J. H.*; Wei, X. F.; Yu, Y. L.;     Wang, X.; Deng, W. Q.*; Liu, X. W.*, 'Nanoreactors' for photocatalytic H-2 evolution in oil-water     biphase systems. Physical Chemistry     Chemical Physics 2010,12 (43), 14449-14451. (影响因子=4.123)

(22)Fan X.; Sun W.; Meng F.; Xing A.; Liu J. H.*. Advanced chemical strategies for lithium–sulfur batteries: A     review. Green Energy & Environment 2018,3     (1), 2-19.新刊

(23)Gong, Y.; He, Y.; Li,     A.; Wang, Y.*; Liu, J. H.*; Qi, T., Palladium-ytterbium bimetallic     electrocatalysts supported on carbon black, titanium suboxide, or     poly(diallyldimethylammonium chloride)-functionalized titanium suboxide     towards methanol oxidation in alkaline media. Ionics 2018,     10.1007/s11581-018-2506-6. (影响因子=2.0)

(24)Wei, X.#;Zhang, M.#; Liu, X.; Chen, F.; Lei,     X.;Liu,H.; Meng, F.;Zeng, H.Yang, S.*, and Liu J.H.* Semitransparent CH3NH3PbI3 Films Achieved by Solvent     Engineering for Annealing- and Electron Transport Layer-Free Planar     Perovskite Solar Cells. Solar RRL2018, acception for publication. 新刊。


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