2017年发表论文

1

Wang,Lin, et al. "A two-volt aqueous supercapacitor from porous dehalogenatedcarbon." Journal of Materials Chemistry A 5.14 (2017): 6734-6739.

2

Chang, Yingna, et al.  "Polymer dehalogenation-enabled fast fabrication of N, S-codoped carbon   materials  for superior supercapacitor and deionization applications."    ACS  applied materials & interfaces 9.35 (2017): 29753-29759.

3

Feng, Guang, et al.  "Single Crystalline Ultrathin Nickel–Cobalt  Alloy Nanosheets  Array  for    Direct Hydrazine Fuel Cells." Advanced Science 4.3 (2017).

4

Hao,  Yongchao,  et al.  "Boosting the  bifunctional  electrocatalytic  oxygen  activities  of  CoOx  nanoarrays  with  a porous  N-doped  carbon  coating  and  their application in  Zn–air batteries." Journal of Materials Chemistry A 5.34 (2017):  17804-17810.

5

Hu,  Cejun,  et al.  "Thin    sandwich   graphene  oxide@ N-doped  carbon  composites  for   high-performance  supercapacitors." RSC Advances 7.36 (2017): 22071-22078.

6

Jiang,   Ming,  et  al.    "Superaerophobic   RuO2‐Based   Nanostructured    Electrode   for    High‐Performance Chlorine Evolution Reaction." Small 13.4 (2017).

7

Lai, Shi-Bin, et al.   "A  promising energy storage system: rechargeable Ni–Zn battery."      Rare  Metals 36.5 (2017): 381-396.

8

Li, Pengsong, et al.  "Topotactic reduction of layered double hydroxides for atomically thick  two-dimensional non-noble-metal alloy." Nano Research 10.9  (2017): 2988-2997.

9

Li,Yingjie, et al."3D  Self‐Supported Fe‐Doped Ni2P Nanosheet Arrays as Bifunctional  Catalysts for Overall Water Splitting." Advanced Functional Materials  27.37 (2017).

10

Luo,  Ma, et al. "Phosphorus oxoanion-intercalated layered double hydroxides  for high-

performance oxygen evolution." Nano Research 10.5  (2017): 1732-1739.

11

Tian, Weiliang, et al.  "Tuning the wettability of carbon nanotube arrays for efficient  bifunctional catalysts and Zn–air batteries." Journal of Materials  Chemistry A 5.15 (2017): 7103-7110.

12

Wang, Lin, et al. "A  two-volt aqueous supercapacitor from porous dehalogenated carbon."

Journal  of Materials Chemistry A 5.14 (2017): 6734-6739.

13

Wang,  Ting, et al. "A flexible transparent colorimetric wrist strap  sensor." Nanoscale 9.2 (2017): 869-874.

14

Zhang, Cong, et al.  "Interfacial dehalogenation-enabled hollow N-doped carbon network as  

bifunctional catalysts for rechargeable Zn-air battery."        Electrochimica  Acta

247 (2017): 1044-1051.

15

Zhang,  Guoxin, et al. "Room-temperature rapid synthesis of metal-free doped  carbon materials." Carbon 115 (2017): 28-33.

16

Zhang, Qian, et al.  "Superaerophobic Ultrathin Ni–Mo Alloy Nanosheet Array from In Situ  

Topotactic Reduction for Hydrogen Evolution Reaction." Small  13.41 (2017).

2014年发表论文

1

Jiang, Jun, et al. "A  Deep Investigation of the Thermal Decomposition Process of Supported

Silver  Catalysts." Bulletin of the Korean Chemical Society 35.6 (2014):  1832-1836.

2

Kuang, Yun, et al.  "Ultrathin dendritic Pt3Cu triangular pyramid caps with  enhanced

electrocatalytic activity." ACS applied materials &  interfaces 6.20 (2014): 17748-17752.

3

Kuang, Yun, et al.  "Solvent switching and purification of colloidal nanoparticles through  

water/oil Interfaces within a density gradient." Nano Research  7.11 (2014): 1670-1679.

4

Liu, Xijun, et al.  "Hierarchical Znx Co3–x O4 Nanoarrays  with High Activity for Electrocatalytic Oxygen Evolution." chemistry  of Materials 26.5 (2014): 1889-1895.

5

Liu, Xijun, et al.  "Au/NiCo2O4 arrays with high activity for water  oxidation." ChemCatChem

6.9 (2014): 2501-2506.

6

Liu, Zhenyu, et al.  "Urchin-like TiO 2@ C core–shell microspheres: coupled  synthesis and

lithium-ion battery applications." Physical Chemistry Chemical Physics 16.19 (2014): 8808-8811.

7

Lu, Zhiyi, et al.  "Transition metal oxides/hydroxides nanoarrays for aqueous  electrochemical

energy storage systems." Science China Materials  57.1 (2014): 59-69.

8

Lu, Zhiyi, et al.  "Three-dimensional NiFe layered double hydroxide film for  high-efficiency

oxygen evolution reaction." Chemical Communications  50.49 (2014): 6479-6482.

9

Lu, Zhiyi,et al. "Ultrahigh Hydrogen Evolution Performance of Under‐Water  “Superaerophobic” MoS2 Nanostructured Electrodes." Advanced  Materials 26.17 (2014): 2683-2687.

10

Song, Sha, et al.  "Asymmetric hetero-assembly of colloidal nanoparticles through “crash  

reaction” in a centrifugal field." Dalton Transactions 43.16  (2014): 5994-5997.

11

Sun, Fang, et al.  "Promoted oxygen reduction activity of Ag/reduced graphene oxide by  

incorporated CoOx." Electrochimica Acta 132 (2014): 136-141.

12

Sun, Jingsong, et al.  "Shape evolution of Au nanoring@ Ag core–shell nanostructures: diversity  from a sole seed." Dalton Transactions 43.33 (2014): 12495-12500.

13

Wang, Yuhang, et al. "A  3D nanoporous Ni–Mo electrocatalyst with negligible overpotential for  alkaline hydrogen evolution." ChemElectroChem 1.7 (2014):  1138-1144.

14

Wu, Xiaochao, et al.  "High-performance aqueous battery with double hierarchical  nanoarrays." Nano Energy 10 (2014): 229-234.

15

Xu, Li, et al.  "One-dimensional copper oxide nanotube arrays: biosensors for glucose  detection." RSC Advances 4.3 (2014): 1449-1455.

16

Xu, Wenwen, et al. "A  hierarchical Ni–Co–O@ Ni–Co–S nanoarray as an advanced oxygen

evolution  reaction electrode." Physical Chemistry Chemical Physics 16.38  (2014): 20402-20405.

17

Yang, Qiu, et al.  "Hierarchical construction of an ultrathin layered double hydroxide  nanoarray

for highly-efficient oxygen evolution reaction." Nanoscale  6.20 (2014): 11789-11794.

18

Yang, Qiu, et al.  "Hierarchical construction of core–shell metal oxide nanoarrays with  ultrahigh areal capacitance." Nano Energy 7 (2014): 170-178.

19

Yu, Xiaoyou, et al.  "Porous MoO3 Film as a High‐Performance Anode Material for  Lithium‐Ion Batteries." ChemElectroChem 1.9 (2014): 1476-1479.

20

Yu, Xiaoyou, et al.  "Green sacrificial template fabrication of hierarchical MoO3  nanostructures." CrystEngComm 16.19 (2014): 3935-3939.

21

Zhang, Haichuan, et al. "Highly crystallized cubic cattierite CoS2 for electrochemically hydrogen evolution over wide pH range from 0 to 14." Electrochimica  Acta 148 (2014): 170-174.