Publications
[1] S.X. Cai, D.S. Zhang, L. Zhang, L. Huang, H.R. Li, R.H. Gao, L.Y. Shi, J.P. Zhang, Comparative study of 3D ordered macroporous Ce0.75Zr0.2M0.05O2−δ (M = Fe, Cu, Mn, Co) for selective catalytic reduction of NO with NH3, Catal Sci Technol, 4 (2014) 93-101.
[2] L. Zhang, D.S. Zhang, J.P. Zhang, S.X. Cai, C. Fang, L. Huang, H.R. Li, R.H. Gao, L.Y. Shi, Design of meso-TiO@MnOx-CeOx/CNTs with a core-shell structure as DeNOx catalysts: promotion of activity, stability and SO2-tolerance, Nanoscale, 5 (2013) 9821-9829.
[3] D.S. Zhang, L. Zhang, L.Y. Shi, C. Fang, H.R. Li, R.H. Gao, L. Huang, J.P. Zhang, In situ supported MnOx-CeOx on carbon nanotubes for the low-temperature selective catalytic reduction of NO with NH3, Nanoscale, 5 (2013) 1127-1136.
[4] D.S. Zhang, L. Zhang, C. Fang, R.H. Gao, Y.L. Qian, L.Y. Shi, J.P. Zhang, MnOx–CeOx/CNTs pyridine-thermally prepared via a novel in situ deposition strategy for selective catalytic reduction of NO with NH3, RSC Adv, 3 (2013) 8811-8819.
[5] X.R. Wen, D.S. Zhang, T.T. Yan, J.P. Zhang, L.Y. Shi, Three-dimensional graphene-based hierarchically porous carbon composites prepared by a dual-template strategy for capacitive deionization, J Mater Chem A, 1 (2013) 12334 - 12344.
[6] H. Wang, D.S. Zhang, T.T. Yan, X.R. Wen, J.P. Zhang, L.Y. Shi, Q.D. Zhong, Three-dimensional macroporous graphene architectures as high performance electrodes for capacitive deionization, J Mater Chem A, 1 (2013) 11778–11789.
[7] P. Maitarad, D.S. Zhang, R.H. Gao, L.Y. Shi, H.R. Li, L. Huang, T. Rungrotmongkol, J.P. Zhang, Combination of Experimental and Theoretical Investigations of MnOx/Ce0.9Zr0.1O2 Nanorods for Selective Catalytic Reduction of NO with Ammonia, J Phys Chem C, 117 (2013) 9999–10006.
[8] R.H. Gao, D.S. Zhang, P. Maitarad, L.Y. Shi, T. Rungrotmongkol, H.R. Li, J.P. Zhang, W.G. Cao, Morphology-Dependent Properties of MnOx/ZrO2-CeO2 Nanostructures for the Selective Catalytic Reduction of NO with NH3, J Phys Chem C, 117 (2013) 10502–10511.
[9] R.H. Gao, D.S. Zhang, X.G. Liu, L.Y. Shi, P. Maitarad, H.R. Li, J.P. Zhang, W.G. Cao, Enhanced catalytic performance of V2O5–WO3/Fe2O3/TiO2 microspheres for selective catalytic reduction of NO by NH3, Catal Sci Technol, 3 (2013) 191-199.
[10] C. Fang, D.S. Zhang, L.Y. Shi, R.H. Gao, H.R. Li, L.P. Ye, J.P. Zhang, Highly dispersed CeO2 on carbon nanotubes for selective catalytic reduction of NO with NH3, Catal Sci Technol, 3 (2013) 803 - 811.
[11] C. Fang, D.S. Zhang, S.X. Cai, L. Zhang, L. Huang, H.R. Li, P. Maitarad, L.Y. Shi, R.H. Gao, J.P. Zhang, Low-temperature selective catalytic reduction of NO with NH3 over nanoflaky MnOx on carbon nanotubes in situ prepared via a chemical bath deposition route, Nanoscale, 5 (2013) 9199-9207.
[12] X.J. Du, D.S. Zhang, L.Y. Shi, R.H. Gao, J.P. Zhang, Coke- and sintering-resistant monolithic catalysts derived from in situ supported hydrotalcite-like films on Al wires for dry reforming of methane, Nanoscale, 5 (2013) 2659 - 2663.
[13] X.J. Du, D.S. Zhang, R.H. Gao, L. Huang, L.Y. Shi, J.P. Zhang, Design of modular catalysts derived from NiMgAl-LDH@m-SiO with dual confinement effects for dry reforming of methane, Chem Commun, 49 (2013) 6770 - 6772.
[14] D.S. Zhang, T.T. Yan, L.Y. Shi, Z. Peng, X.R. Wen, J.P. Zhang, Enhanced capacitive deionization performance of graphene/carbon nanotube composites, J Mater Chem, 22 (2012) 14696–14704.
[15] D.S. Zhang, X.R. Wen, L.Y. Shi, T.T. Yan, J.P. Zhang, Enhanced capacitive deionization of graphene/mesoporous carbon composites, Nanoscale, 4 (2012) 5440-5446.
[16] D.S. Zhang, X.J. Du, L.Y. Shi, R.H. Gao, Shape-controlled synthesis and catalytic application of ceria nanomaterials, Dalton Trans, 41 (2012) 14455–14475.
[17] X.R. Wen, D.S. Zhang, L.Y. Shi, T.T. Yan, H. Wang, J.P. Zhang, Three-dimensional hierarchical porous carbon with a bimodal pore arrangement for capacitive deionization, J Mater Chem, 22 (2012) 23835 - 23844.
[18] H. Wang, D.S. Zhang, T.T. Yan, X.R. Wen, L.Y. Shi, J.P. Zhang, Graphene prepared via a novel pyridine–thermal strategy for capacitive deionization, J Mater Chem, 22 (2012) 23745 - 23748.
[19] Z. Peng, D.S. Zhang, L.Y. Shi, T.T. Yan, High performance ordered mesoporous carbon/carbon nanotube composite electrodes for capacitive deionization, J Mater Chem, 22 (2012) 6603-6612.
[20] H.R. Li, D.S. Zhang, P. Maitarad, L.Y. Shi, R.H. Gao, J.P. Zhang, W.G. Cao, In situ synthesis of 3D flower-like NiMnFe mixed oxides as monolith catalysts for selective catalytic reduction of NO with NH3, Chem Commun, 48 (2012) 10645-10647.
[21] X.J. Du, D.S. Zhang, L.Y. Shi, R.H. Gao, J.P. Zhang, Morphology Dependence of Catalytic Properties of Ni/CeO2Nanostructures for Carbon Dioxide Reforming of Methane, J Phys Chem C, 116 (2012) 10009-10016.
[22] D.S. Zhang, T.T. Yan, H.R. Li, L.Y. Shi, Ionic liquid-assisted synthesis and photoluminescence property of mesoporous EuF3 nanospheres, Micropor Mesopor Mat, 141 (2011) 110-118.
[23] Z. Peng, D.S. Zhang, L.Y. Shi, T.T. Yan, S. Yuan, H.R. Li, R.H. Gao, J.H. Fang, Comparative Electroadsorption Study of Mesoporous Carbon Electrodes with Various Pore Structures, J Phys Chem C, 115 (2011) 17068-17076.
