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[1] W.X. Jin, S.Y. Ma*, Z.Z. Tie, J.J. Wei, J. Luo, X.H. Jiang, T.T. Wang, W.Q. Li, One-step synthesis and highly gas-sensing properties of hierarchical Cu-doped SnO2 nanoflowers, Sens Actuators B: Chem. 213 (2015) 171–180. (IF=3.84, SCI一区)
[2] L. Cheng, S.Y. Ma*, T.T. Wang, J. Luo. Three-dimensional SnO2 nanostructures assembled by porous nanosheets and their improved gas sensing properties, Mater. Lett. 143 (2015) 84–87.
[3] X.L. Xu, Y. Chen, S.Y. Ma*, W.Q. Li, Y.Z. Mao, Excellent acetone sensor of La-doped ZnO nanofibers with unique bead-like structures, Sensors and Actuators B: Chemical, 213 (2015) 222-233.
[4] X.L. Xu, Y. Chen, S.Y. Ma*, W.Q. Li, Y.Z. Mao, S.H. Yan, T. Wang, Facile synthesis of SnO2 mesoporous tubular nanostructure with high sensitivity to ethanol, Materials Letters, 143 (2015) 55-59.
[5] X.L. Xu, Y. Chen, S.Y. Ma*, S.H. Yan, Y.Z. Mao, T. Wang, H.Q. Bian, CTAB-assisted synthesis of unique 3D ZnO and the acetone sensing performances, Materials Letters, 151 (2015) 5-8.
[6] T.T. Wang, S.Y. Ma*, L. Cheng, J. Luo, X.H. Jiang, W.Q. Li, W.X. Jin, X.X. Sun. Performance of 3D SnO2 microstructure with porous nanosheets for acetic acid sensing, Mater. Lett. 142 (2015) 141–144.
[7] T.T. Wang, S.Y. Ma*, L. Cheng, J. Luo, X.H. Jiang, W.X. Jin. Preparation of Yb-doped SnO2 hollow nanofibers with an enhanced ethanol-gas sensing performance by electrospinning, Sens Actuators B: Chem. 216 (2015) 212-220.
[8] J. Luo, S.Y. Ma*, L. Cheng, H.S. Song, W.Q. Li. Facile fabrication and enhanced acetic acid sensing properties of honeycomb-like porous ZnO, Mater. Lett. 138 (2015) 100–103.
[9] W.X. Jin, S.Y. Ma*, A.M. Sun, J. Luo, L. Cheng, W.Q. Li, Z.Z. Tie, X.H. Jiang, T.T. Wang. Synthesis of hierarchical SnO2 nanoflowers and their high gas-sensing properties, Mater. Lett. 143 (2015) 283–286.
[10] Wenqi Li, Shuyi Ma*, Guijin Yang, Yuzhen Mao, Jing Luo,Preparation, characterization and gas sensing properties of pure and Ce doped ZnO hollow nanofibers, Mater. Lett. 138 (2015) 188–191.
[11] X.H. Jiang, S.Y. Ma*, W.Q. Li, T.T. Wang, W.X. Jin, Synthesis of hierarchical ZnO nanostructure assembled by nanorods and their performance for gas sensing, Mater. Lett. 142 (2015) 299–303.
[12] W.X. Jin, S.Y. Ma*, Z.Z. Tie, W.Q. Li, J. Luo, L. Cheng, Synthesis of hierarchical SnO2 nano flowers with enhanced acetic acidgas sensing properties, Applied Surface Science, 353 (2015) 71–78.
[13] W.X.Jin, S.Y. Ma*, Z.Z.Tie, X.L.Xu, X.H.Jiang, W.Q.Li, Synthesis of monodisperse ZnO hollow six-sided pyramid sand their high gas-sensing properties, Mater. Lett. 159 (2015) 102–105.
[14] W.X. Jin, S.Y. Ma*, Z.Z. Tie, X.H. Jiang, W.Q. Li, J. Luo, X.L. Xu, Hydrothermal synthesis of monodisperse porous cube, cake and spheroid-like α-Fe2O3 particles and their high gas-sensing properties, Sens Actuators B: Chem. 220 (2015) 243-254.
[15] X.H. Jiang, S.Y. Ma*, A.M.Sun, X.L.Xu, W.Q.Li, T.T.Wang, 3D porous flower-like SnO2 microstructure and its gas sensing properties for ethanol, Mater. Lett. 159 (2015) 5–8.
[16] Wenqi Li, Shuyi Ma *, Yingfeng Li, Guijin Yang, Yuzhen Mao, Enhanced ethanol sensing performance of hollow ZnO–SnO2core–shell nanofibers, Sens Actuators B: Chem. 211 (2015) 392-402.
[17] Y.Z. Mao, S.Y. Ma*, W.Q.Li, J.Luo, L.Cheng, D.J.Gengzang, X.L.Xu, Synthesis of porous small-sized ZnO nanoparticles and their gas-sensing performance, Mater. Lett. 157 (2015)151–154.
[18] G.X. Wan, S.Y. Ma*, X.W.Sun, A.M.Sun, X.B.Li, J.Luo, W.Q.Li, Synthesis of wrinkled and porous ZnO–SnO2 hollow nanofibers and their gas sensing properties, Mater. Lett. 145 (2015) 48–51.
[19] L. Cheng, T.T. Wang, S.Y. Ma*, J. Luo, T. Wang, H.B. Zhu, Highly enhanced gas sensing properties of porous TiO2-SnO2 composite nanotubes with heterostructure based on electrospinning method, Sens Actuators B: Chem. 216 (2015) 212-220.
[20] S.H. Yan, S.Y. Ma*, W.Q. Li, X.L. Xu, L. Cheng, Synthesis of SnO2–ZnO heterostructured nanofibers for enhanced ethanol gas-sensing performance, Sens Actuators B: Chem. 221 (2015) 88-95.
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