• 您正在使用的“商城基础版”已到期,网站的付费功能即将被关闭。请尽快续费。
 
2013年发表论文

1

Chang, Zheng, et al.  "Synthesis mechanism study of layered double hydroxides based on  

nanoseparation." Inorganic chemistry 52.15 (2013): 8694-8698.

2

Liu, Zhenyu, et al.  "One-step scalable preparation of N-doped nanoporous carbon as a  

high-performance electrocatalyst for the oxygen reduction reaction." Nano  Research 6.4 (2013): 293-301.

3

Lu, Zhiyi, et al. "In  situ fabrication of porous MoS2 thin-films as high-performance  catalysts for electrochemical hydrogen evolution." Chemical  Communications 49.68 (2013): 7516-7518.

4

Song, Sha, et al.  "Separation and phase transition investigation of Yb 3+/Er 3+  co-doped NaYF4 nanoparticles." Dalton Transactions  42.37 (2013): 13315-13318.

5

Wang, Cheng, et al.  "Highly controlled bifunctional Ag@ rubrene core–shell nanostructures:  

surface-enhanced fluorescence and Raman scattering." Journal of  Materials Chemistry C 1.26

(2013): 4146-4152.

6

Yang, Qiu, et al.  "Metal oxide and hydroxide nanoarrays: Hydrothermal synthesis and  

applications as supercapacitors and nanocatalysts." Progress in  Natural Science: Materials

International 23.4 (2013): 351-366.

7

Yang, Qiu, et al.  "Ultrathin Co3O4 nanosheet arrays with high  supercapacitive performance."

Scientific reports 3 (2013): 3537.

8

Yu, Xiaoyou, et al. "V2O5  nanostructure arrays: controllable synthesis and performance as

cathodes for  lithium ion batteries." RSC Advances 3.43 (2013): 19937-19941.

9

Zhang, Xinke, et al.  "Ag@ zinc–tetraphenylporphyrin core–shell nanostructures with unusual  

thickness-tunable fluorescence." Chemical Communications 49.34  (2013): 3513-3515.

10

Zhu,  Wei, et al. "Hierarchical Ni 0.25Co 0.75(OH)2  nanoarrays for a high-performance

supercapacitor electrode prepared by an in  situ conversion process." Journal of Materials

Chemistry A 1.29  (2013): 8327-8331.