24207
当前位置: 首页   >  成果及论文
成果及论文

近5年的一区论文(通讯或第一作者,截至20191231

1.      Mao, M.; Yan, F.; Cui, C.; Ma, J.; Zhang, M.*; Wang, T.; Wang, C.*, Pipe-Wire TiO2–Sn@Carbon Nanofibers Paper Anodes for Lithium and Sodium Ion Batteries. Nano Letters 2017, 17 (6), 3830-3836.

2.      Chen, C.; Yang, Y.; Ding, S.; Wei, Z.; Tang, X.; Li, P.; Wang, T.; Cao, G.*; Zhang, M.*, S-doped carbon@TiO2 to store Li+/Na+ with high capacity and long life-time. Energy Storage Materials 2018, 13, 215-222.

3.      Zhang, M.; Wang, T.; Cao, G.*, Promises and challenges of tin-based compounds as anode materials for lithium-ion batteries. International Materials Reviews 2015, 60 (6), 330-352. (邀请综述)

4.      Chen, Z.; Wang, T.; Zhang, M.*; Cao, G.*, A Phase-Separation Route to Synthesize Porous CNTs with Excellent Stability for Na+ Storage. Small 2017, 13 (23), 1604045. (封面论文)

5.      Chen, Z.; Yin, D.; Zhang, M.*, Sandwichlike MoS2@SnO2@C with High Capacity and Stability for Sodium/Potassium Ion Batteries. Small 2018, 14 (17), 1703818. (封面论文)

6.      Chen, C.; Li, P.; Wang, T.; Wang, S.; Zhang, M.*, S-Doped Carbon Fibers Uniformly Embedded with Ultrasmall TiO2 for Na+/Li+ Storage with High Capacity and Long-Time Stability. Small 2019, 15 (38), 1902201. (封面论文)

7.      Chen, C.; Yang, Y.; Tang, X.; Qiu, R.; Wang, S.; Cao, G.; Zhang, M.*, Graphene-Encapsulated FeS2 in Carbon Fibers as High Reversible Anodes for Na+/K+ Batteries in a Wide Temperature Range. Small 2019, 15 (10), 1804740.

8.      Zhang, M.*; Yan, F.; Tang, X.; Li, Q.; Wang, T.*; Cao, G.*, Flexible CoO-graphene-carbon nanofiber mats as binder-free anodes for lithium-ion batteries with superior rate capacity and cyclic stability. Journal of Materials Chemistry A 2014, 2 (16), 5890-5897.

9.      Mao, M.; Jiang, L.; Wu, L.; Zhang, M.*; Wang, T.*, The structure control of ZnS/graphene composites and their excellent properties for lithium-ion batteries. Journal of Materials Chemistry A 2015, 3 (25), 13384-13389.

10.    Yan, F.; Tang, X.; Wei, Y.; Chen, L.; Cao, G.*; Zhang, M.*; Wang, T., Stannous ions reducing graphene oxide at room temperature to produce SnOx-porous, carbon-nanofiber flexible mats as binder-free anodes for lithium-ion batteries. Journal of Materials Chemistry A 2015, 3 (24), 12672-12679.

11.    Liao, Y.; Chen, C.; Yin, D.; Cai, Y.; He, R.*; Zhang, M.*, Improved Na+/K+ Storage Properties of ReSe2–Carbon Nanofibers Based on Graphene Modifications. Nano-Micro Letters 2019, 11 (1), 22.

12.    Ding, S.; Zhou, B.; Chen, C.; Huang, Z.; Li, P.; Wang, S.; Cao, G.; Zhang, M.*, Three-Dimensional Self-assembled Hairball-Like VS4 as High-Capacity Anodes for Sodium-Ion Batteries. Nano-Micro Letters 2020, 12 (1), 39.

13.    Tang, X.; Yan, F.; Wei, Y.; Zhang, M.*; Wang, T.*; Zhang, T., Encapsulating SnxSb Nanoparticles in Multichannel Graphene-Carbon Fibers As Flexible Anodes to Store Lithium Ions with High Capacities. ACS Appl. Mater. Interfaces 2015, 7 (39), 21890-21897.

14.    Wei, Y.; Yan, F.; Tang, X.; Luo, Y.; Zhang, M.*; Wei, W.; Chen, L.*, Solvent-Controlled Synthesis of NiO–CoO/Carbon Fiber Nanobrushes with Different Densities and Their Excellent Properties for Lithium Ion Storage. ACS Appl. Mater. Interfaces 2015, 7 (39), 21703-21711.

15.    Wang, Z.; Zhang, M.*; Zhou, J.*, Flexible NiO–Graphene–Carbon Fiber Mats Containing Multifunctional Graphene for High Stability and High Specific Capacity Lithium-Ion Storage. ACS Appl. Mater. Interfaces 2016, 8 (18), 11507-11515.

16.    Shen, Q.; Jiang, P.; He, H.; Chen, C.; Liu, Y.; Zhang, M.*, Encapsulation of MoSe2 in carbon fibers as anodes for potassium ion batteries and nonaqueous battery–supercapacitor hybrid devices. Nanoscale 2019, 11 (28), 13511-13520.

17.    Wang, R.; Luo, Y.; Chen, Z.; Zhang, M.*; Wang, T.*, The effect of loading density of nickel-cobalt sulfide arrays on their cyclic stability and rate performance for supercapacitors. Science China Materials 2016, 59 (8), 629-638.

18.    Chen, Z.; Liu, Y.; Zhang, H.; Ding, S.; Wang, T.; Zhang, M.*, In-situ phase transition to form porous h-MoO3@C nanofibers with high stability for Li+/Na+ storage. Science China Materials 2017, 60 (8), 755-765.

19.    He, H.; Chen, C.; Chen, Z.; Li, P.; Ding, S.; Cai, M.; Zhang, M.*, Ni3S2@S-carbon nanotubes synthesized using NiS2 as sulfur source and precursor for high performance sodium-ion half/full cells. Science China Materials 2020, 63 (2), 216-228.

  全部论文,详见https://www.scholarmate.com/P/mzhang_hnu

封面论文

17_Small_Cover Picture-1_缩小大小_缩小大小_缩小大小.jpg18_Small_Cover Picture_缩小大小_缩小大小.jpg19_Small_Cover Picture_缩小大小_缩小大小.jpg20_NML_VS4-SIBs封面_缩小大小_缩小大小_缩小大小.jpg