曲群婷

发布时间:2019-02-27浏览次数:96

2017年
4. Yan Wang, Qunting Qu*, Gao Liu, Vincent S. Battaglia, Aluminum fumarate-based metal organic frameworks with tremella-like structure as ultrafast and stable anode for lithium-ion batteries, Nano Energy2017, 39, 200-210.
3. Huiyuan Zheng, Qunting Qu*, Guobin Zhu, Gao Liu, Vincent S. Battaglia, Honghe Zheng, Quantitative Characterization of the Surface Evolution for LiNi0.5Co0.2Mn0.3O2/Graphite Cell during Long-Term Cycling, ACS Appl. Mater. Interfaces2017, 9, 12445-12452.
2. Weijie Liu, Qiang Shi, Qunting Qu*, Tian Gao, Guobin Zhu, Jie Shao and Honghe Zheng,Improved Li-ion diffusion and stability of a LiNi0.5Mn1.5O4 cathode through in-situ co-doping with dual-metal cations and incorporation of a superionic conductor, J. Mater. Chem. A20175, 145-154
1. Qiang Shi, Weijie Liu, Qunting Qu*, Tian Gao, Yan Wang, Gao Liu, Vincent S. Battaglia, Honghe Zheng, Robust solid/electrolyte interphase on graphite anode to suppress lithium inventory loss in lithium-ion batteries, Carbon2017111, 291-298.

2016年
7. Qiujian Lu, Yuanlei Ding, Qunting Qu*, Tian Gao, Xianlin Zhang, Ming Shen and Honghe Zheng, N-Methylacetamide as an electrolyte component for suppressing co-intercalation of propylene carbonate in lithium ion batteries, RSC Adv.20166, 65847-65853.

6. Yan Wang, Qunting Qu*, Yuyao Han, Tian Gao, Jie Shao, Zhichen Zuo, Weijie Liu, Qiang Shi and Honghe Zheng, Robust 3D nanowebs assembled from interconnected and sandwich-like C@Fe3O4@C coaxial nanocables for enhanced Li-ion storage, J. Mater. Chem. A, 2016, 4, 10314-10320.



5. Yan Wang, Qunting Qu*, Guangchao Li, Tian Gao, Feng Qian, Jie Shao, Weijie Liu, Qiang Shi and Honghe Zheng, 3D Interconnected and Multiwalled Carbon@MoS2@Carbon Hollow Nanocables as Outstanding Anodes for Na-Ion Batteries, Small2016, 12, 6033-6041 (Hot Paper)




4. Jie Shao, Tian Gao, Qunting Qu*, Qiang Shi, Zhichen Zuo, Honghe Zheng, Ultrafast Li-storage of MoS2 nanosheets grown on metal-organic framework-derived microporous nitrogen-doped carbon dodecahedrons, J. Power Sources, 2016, 324, 1-7.

3. Tian Gao, Qunting Qu*, Guobin Zhu, Qiang Shi, Feng Qian, Jie Shao, Honghe Zheng, A self-supported carbon nanofiber paper/sulfur anode with high-capacity and high-power for application in Li-ion batteries, Carbon, 2016, 110, 249-256.

2. Qunting QuFeng Qian, Siming Yang, Tian Gao, Weijie Liu, Jie Shao, Honghe Zheng, Layer-by-layer polyelectrolyte assisted growth of 2D ultrathin MoS2 nanosheets on various 1D carbons for superior Li-storage, ACS Appl. Mater. Interfaces, 2016, 8, 1398–1405.
1. Xingxing Li (本科生), Xueying Zheng, Jie Shao, Tian Gao, Qiang Shi, QuntingQu*,Synergistic Ternary Composite (Carbon/Fe3O4@Graphene) with Hollow Microspherical and Robust Structure for Li-Ion Storage, Chem. Eur. J.201622, 376-381. (Hot Paper, Most Accessed)


2015年
8. Tian Gao, Jie Shao, Xingxing Li, GuobinZhu, Qiujian Lu, Yuyao Han, QuntingQu*, Honghe Zheng, Is overprotection of the sulfur cathode good for Li–Sbatteries, Chem. Commun.2015, 51, 12459-12462. Link


7. Jie Shao, Qunting Qu*, Zhongming Wan, Tian Gao, Zhichen Zuo, HongheZheng, From Dispersed Microspheres to Interconnected Nanosphers: Carbon-SandwichedMonolayered MoS2as High-Performance Anode of Li-Ion Batteries, ACS Appl. Mater. Interfaces, 2015, 7, 22927-22934Link




6. Qunting Qu, Tian Gao, Huiyuan Zheng, Yan Wang, Xinyong Li, Xingxing Li, Junmei Chen, Yuyao Han, Jie Shao,* Honghe Zheng, Strong Surface-BoundSulfur in Conductive MoO2 Matrix for Enhancing Li–S BatteryPerformance, Adv. Mater. Interfaces, 2015, 2, 1500048. (AMI 2015-2016年高被引Top10论文 Link


5. Qunting Qu, Junmei Chen, Xingxing Li, Tian Gao, Jie Shao, HongheZheng*, Strongly coupled 1D sandwich-like C@Fe3O4@C coaxial nanotubes withultrastable and high capacity for lithium-ion batteries, J. Mater. Chem. A 2015, 3, 18289-18295Link



  

4. Qunting Qu, Tian Gao, Huiyuan Zheng, Xingxing Li, Hongmei Liu,Ming Shen, Jie Shao*, Honghe Zheng, Graphene oxides-guided growth of ultrafine Co3O4 nanocrystallites from MOFs as high-performance anode of Li-ion batteries, Carbon, 2015, 92, 119-125Link

3. Yan Wang, Huiyuan Zheng, Qunting Qu*, Li Zhang, VincentS. Battaglia, Honghe Zheng, Enhancing electrochemical properties of graphite anode by using poly(methylmethacryrlate)-poly(vinylidene fluoride) compositebinder, Carbon, 2015, 92: 318-326. Link


2. J.J. Yun, Y. Wang, T. Gao, H.Y.Zheng, M. Shen, Q.T. Qu*, H.H.Zheng*, In-situ electrochemical coating of Ag nanoparticles onto graphiteelectrode with enhanced performance for Li-ion batteriesElectrochimica Acta2015, 155, 396-401Link


1. Huiyuan Zheng, Li Tan, Li Zhang, Qunting Qu*, Zhongming Wan, YanWang, Ming Shen, Honghe Zheng, Correlation between lithium deposition ongraphite electrode and the capacity loss for LiFePO4/graphite cells, Electrochimica Acta2015, 173, 323-330,Link


2014年

5. Z.M.Wan, J. Shao, J.J. Yun, H.Y. Zheng, T. Gao, M. Shen, Q.T. Qu*, H.H. Zheng*, Core–shell structure of hierarchical quasi-hollowMoSmicrospheres encapsulated porous carbon as stable anode for Li-ion batteries, Small2014, 10, 4975–4981. Link




4. J. Shao, Z.M. Wan, H.M. Liu, H.Y. Zheng, T. Gao, M. Shen, Q.T. Qu*, H.H. Zheng*, Metal organic frameworks-derived Co3O4 hollow dodecahedrons with controllable interiors as outstanding anodes for Listorage, J. Mater. Chem. A 2: 12194-12200, 2014. (高被引论文Link



3. J.Shao, X.Y. Li, Y.L. Ding, Z.M. Wan, H.M. Liu, J.J. Yun, Y. Liu, Q.T. Qu*, H.H. Zheng*, Construction of symmetric aqueous rechargeable battery with high voltage basedon NiFe2O4hollow microspheres, Electrochem. Commun. 40: 9-12, 2014.


2. Q.T. Qu*,J.J. Yun, Z.M. Wan, H.Y. Zheng, T. Gao, M. Shen, J. Shao*, H.H. Zheng*,MOF-derived microporous carbon as a better choice for Na-ion batteries thanmesoporous CMK-3, RSC Adv. 4: 64692-64697, 2014Link




1. Y.Y.Ding, J.J. Yun, H.M. Liu, Z.M. Wan, M. Shen, L. Zhang, Q.T. Qu*, H.H. Zheng*, A safe and superior propylenecarbonate-based electrolyte with high-concentration Li salt, Pure Appl. Chem. 86: 585-591, 2014.


2013



7. J.Shao, X.Y. Li, Z.M. Wan, L.F. Zhang, Y.L. Ding, L. Zhang, Q.T. Qu*, HH.H. Zheng*, Low-cost synthesis of hierarchical V2Omicrospheres as high-performance cathode for lithium-ion batteries, ACS Appl. Mater. Interfaces 5:7671?7675, 2013Link




6. J.Shao, Y.L. Ding, X.Y. Li, Z.M. Wan, C.Y. Wu, J.P. Yang, Q.T. Qu*, H.H. Zheng*, Low crystallinity VOOH hollowmicrospheres as an outstanding high-rate and long-life cathode for sodium ionbatteries, J. Mater. Chem. A 1: 2404–12408, 2013. Link




5. J.Shao, X.Y. Li, L. Zhang, Q.T. Qu*,H.H. Zheng*, Core–shell sulfur@polypyrrole composites as highcapacity materialsfor aqueous rechargeable batteries, Nanoscale 5: 1460–1464, 2013Link



4. X.Y.Li, J. Shao, J. Li, L. Zhang, Q.T. Qu*,H.H. Zheng*, Ordered mesoporous MoO2 as a high-performance anodematerial for aqueous supercapacitors, J.Power Sources 237: 80-83, 2013.

3. J.Shao, X.Y. Li, Q.T. Qu*, Y.P.Wu*, Study on different power and cycling performance of crystalline KxMnO2·nH2Oas cathode material for supercapacitors in Li2SO4, Na2SO4,and K2SO4 aqueous electrolytes, J. Power Sources 223: 56-61, 2013.


2. Q.T. Qu,L.L. Liu, Y.P. Wu*, R. Holze, Electrochemical behavior of V2O5·0.6H2O nanoribbons in neutral aqueous electrolyte solution, Electrochim. Acta 96: 8-12, 2013.


1. L.Tan, L. Zhang, Q. Sun, M. Shen, Q.T.Qu*, H.H. Zheng*, Capacity loss induced by lithium deposition atgraphite anode for LiFePO4/graphite cell cycling at differenttemperatures, Electrochim. Acta 111:802–808, 2013.


2012年



3. Q.T. Qu,Y.S. Zhu, X.W. Gao, Y.P. Wu*,Core–Shell Structure of Polypyrrole Grown on V2O5 Nanoribbon as High Performance Anode Material for Supercapacitors, Adv. Energy Mater. 2: 950–955, 2012.


2. J.Shao, X.Y. Li, Q.T. Qu*, H.H.Zheng*, One-step hydrothermal synthesis of hexangular starfruit-like vanadiumoxide for high power aqueous supercapacitors, J. Power Sources 219: 253-257, 2012.


1. H.H.Zheng*Q.T.Qu, L. Zhang, G. Liu, V.S. Battaglia, Hard carbon: a promisinglithium-ion battery anode for high temperature applications with ionicelectrolyte, RSC Advances2:4904-4912, 2012.


2011



2. Q.T. Qu, S.B.Yang, X.L. Feng*, 2D Sandwich-like sheets of iron oxide grown on graphene ashigh energy anode material for supercapacitors, Adv. Mater. 23:5574-5581, 2011.


1. Q.T. Qu, L.J. Fu, X.Y. Zhan, D. Samuelis, J. Maier,* L. Li, S.Tian, Z.H. Li Y.P. Wu*, Porous LiMn2O4 ascathode material with high power and excellent cycling for aqueous rechargeablelithium batteries, Energy Environ. Sci. 4:3985-3990, 2011.


2010年及以前



12. Q.T. Qu, P. Zhang, B. Wang, Y.H. Chen, S. Tian, Y.P. Wu*, R.Holze*, Electrochemical performance of MnO2 nanorods in neutral aqueous electrolytes as a cathode for asymmetricsupercapacitors, J. Phys. Chem. C 113:14020–14027, 2009. (高被引论文)


11. Q.T. QuY. Shi, L.L. Li, W.L. Guo, Y.P. Wu*, H.P. Zhang, S.Y.Guan*, R. Holze*, V2O5·0.6H2Onanoribbons as cathode material for asymmetric supercapacitor in K2SO4solution, Electrochem. Commun. 11:1325–1328, 2009.


10. Q.T. Qu, Y. Shi, S. Tian, Y.H. Chen, Y.P. Wu*, R. Holze*, A new cheap asymmetric aqueous supercapacitor: Activated carbon//NaMnO2J. Power Sources 194: 1222–1225, 2009. (高被引论文)


9. Q.T. Qu, L. Li, S. Tian, W. Guo, Y.P. Wu*, R. Holze*, A cheap asymmetric supercapacitor with high energy at high power: activatedcarbon//K0.27MnO2?0.6H2O, J. Power Sources,195: 2489–2493, 2009. (高被引论文)


8. Q.T. Qu, B. Wang, L.C. Yang, Y. Shi, S. Tian, Y.P. Wu*, Studyon electrochemical performance of activated carbon in aqueous Li2SO4,Na2SO4 and K2SO4 electrolytes.Electrochem. Commun. 10: 1652–1655, 2008

7. Q.T. QuG.J. Wang, L.L. Liu, S. Tian, Y. Shi, Y.P. Wu*, R. Holze*, Excellent electrochemicalbehavior of LiMn2O4 inaqueous electrolyte. Funct.Mater. Lett. 3: 1-4, 2010.(Times Cited: 14)
6. H.H.Zheng*Q.T.Qu, Z. Ogumi, G. Liu, V. Battaglia, The film-forming properties of propylene carbonate (PC) ongraphite anodes. 复旦学 46: 851, 2007.

5. 郑洪河,曲群婷,卓克垒,王键吉,安部武志,小九见善八,天然石墨阳极在室温离子液体电解液中的电化学性质. 高等学校化学学报 27:2402–2404, 2006.
4. 郑洪河,曲群婷,刘云伟,徐仲榆,无机固体电解质用于锂及锂离子电池的研究进展  锂陶瓷电解质. 电源技术 31: 349–353, 2007.
3. 郑洪河,曲群婷,石静,徐仲榆,无机固体电解质用于锂及锂离子电池的研究进展 玻璃态锂无机固体电解质电源技术 31: 1015–1019,

2007


2. Q.T. QuY.P. Wu*, et al. (2008): 一种非对称型水系钠/钾离子电池电容器. 中国专利No. 200810034547.8 dated 13.3.2008.


1. Q.T. QuY.P. Wu*, et al. (2010): 一种超级电容器中国专利No. 201010162397.6 dated 28.4.2010.


著作-书章节

李弘:《先进功能材料》,2011化学工业出版社,负责第十章中超级电容器和其他新能源材料部分的编写,约两万字