Dr. Shengliang Zhong
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Dr. Shengliang Zhong

Professor
Jiangxi Normal University, China

Highest Degree
Ph.D. in Inorganic Chemistry from Sun Yat-sen University, China

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Area of Interest:

Chemistry
100%
Colloid and Interface
62%
Inorganic Chemistry
90%
Material Chemistry
75%
Nanotechnology
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
58
Abstracts
0

Selected Publications

  1. Zou, H.H., C.Z. Yuan, H.Y. Zou, T.Y. Cheang and S.J. Zhao et al., 2017. Bimetallic phosphide hollow nanocubes derived from a prussian-blue-analog used as high-performance catalysts for the oxygen evolution reaction. Catal. Sci. Technol. .
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  2. Liao, Y. Y., Y. Li, L. Wang, Y. Zhao and D.Y. Ma et al., 2017. Multi-shelled ceria hollow spheres with tunable shell number, thickness and their superior catalytic activity. Dalton Trans. .
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  3. Chen, W., S. Li, C.H. Zeng and S. Zhong, 2017. Eu-based coordination polymers micro-flowers: Preparation and luminescence properties. J. Inorganic Organometallic Polym. Mater., 27: 598-604.
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  4. Zhong, S., B. Li, Y. Ji and C. Zeng, 2016. Multifunctional coordination polymer nanoparticles based on allantoin: Single peak upconversion emission, drug delivery and cytotoxicity study. J. Inorganic Organometallic Polym. Mater., 26: 527-535.
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  5. Su, R.R., P. Tao, Y. Han, C.H. Zeng and S.L. Zhong, 2016. Lanthanide coordination polymer nanosheet aggregates: Solvothermal synthesis and downconversion luminescence. J. Nanomaterials, Vol. 2016. 10.1155/2016/3714041.
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  6. Nie, Z.W., C.H. Zeng, G. Xie and S.L. Zhong, 2016. Uniform cerium-based coordination polymer microspheres: Preparation and upconversion emission. J. Nanosci. Nanotechnol., 16: 3705-3709.
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  7. Li, S.S., Y.H. Ji, S.Q. Zhang, S.L. Zhong and C.H. Zeng, 2016. Fabrication of Yb3+/Er3+ co-doped yttrium-based coordination polymer hierarchical micro/nanostructures: Upconversion luminescence properties and thermal conversion to the corresponding oxides. CrystEngComm, 18: 6809-6816.
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  8. Li, B., H. Xu, C. Xiao, M. Shuai, W. Chen and S. Zhong, 2016. Coordination polymer core/shell structures: Preparation and up/down-conversion luminescence. J. Colloid Interface Sci., 479: 15-19.
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  9. Huang, S., H. Xu, M. Wang, S. Zhong and C. Zeng, 2016. Rapid microwave synthesis and photoluminescence properties of rare earth-based coordination polymer core-shell particles. Opt. Mater., 62: 538-542.
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  10. Zheng, K., L. Kai-Li, Z. Cheng-Hui, L. Sha-Sha, N. Zhi-Wen and Z. Shengliang, 2015. Hybrid membrane of agarose and lanthanide coordination polymer: A selective and sensitive Fe3+ sensor. Photochem. Photobiol., 91: 814-818.
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  11. Yong-Xia, Z., N. Zhi-Wen, S. Meng-Meng, Z. Cheng-Hui, L. Yuan, W. Lei and Z. Sheng-Liang, 2015. Cerium-based porous coordination polymers with hierarchical superstructures: Fabrication, formation mechanism and their thermal conversion to hierarchical CeO2. Inorg. Chem. Front., 2: 567-575.
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  12. Wang, L., F. Hao, X. Hualan, W. Caoli, L. Yuanjin, L. Yang and Z. Shengliang, 2015. Ionic liquid-assisted preparation of square-shaped Y2O3 nanoplates. Mater. Res. Bull., 61: 89-94.
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  13. Shi, M., Z. Chenghui, W. Lei, N. Zhiwen, Z. Yongxia and Z. Shengliang, 2015. Straw-sheaf-like terbium-based coordination polymer architectures: Microwave-assisted synthesis and their application as selective luminescent probes for heavy metal ions. New J. Chem., 39: 2973-2979.
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  14. Sha-Sha, L., Y. Zhen-Ni, X. Song-Song, Z. Yu-Jiao and Z. Shengliang et al., 2015. Highly luminescent lanthanide CPs based on dinuclear cluster: Crystal structure and sensitive Trp sensor. RSC Adv., 5: 71961-71967.
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  15. Cheng-Hui, Z., Z. Kai, L. Kai-Li, M. Xiao-Ting and Z. Shengliang et al., 2015. Synthesis of porous europium oxide particles for photoelectrochemical water splitting. Electrochim. Acta, 165: 396-401.
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  16. Zhong, S., W. Mengy, W. Lei, L. Yuan, M.N. Hyeon and H.J. Jung, 2014. Preparation of 3D cerium-based coordination polymer microstructures and their conversion to ceria. CrystEngComm, 16: 231-236.
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  17. Zhong, S., J. Hongyu, L. Yuan, Y. Shungao, Z. Chenghui and W. Lei, 2014. Coordination polymer submicrospheres: Fast microwave synthesis and their conversion under different atmospheres. Inorg. Chem., 53: 8278-8286.
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  18. Zhi-Wen, N., L. Sha-Sha, Z. Cheng-Hui, W. Lei, L. Yuan, Y. Shun-Gao and Z. Sheng-Liang, 2014. Hetero-metallic lanthanide CPs involving sodium: Synthesis, crystal structure and luminescence properties. Z. Anorg. Allg.Chem., 640: 2255-2260.
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  19. Sheng-Liang, Z., Z. Lin-Fei and X. An-Wu, 2014. Entropically driven formation of ultralong helical mesostructured organosilica nanofibers. Small, 10: 888-894.
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  20. Ji, Y., Y. Haiming, W. Lei, L. Yuwen, G. Dongdong, B. Linjie and Z. Shengliang, 2014. Ultralong coordination polymers microtubes: Facile microwave preparation and characterization. Curr. Microwave Chem., 1: 2-5.
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  21. Zhong, S., J. Yanhua, X. Qingji, W. Lei, L. Yuan and H.J. Jung, 2013. Coordination polymer nanospheres: Preparation, upconversion properties and cytotoxicity study. Mater. Lett., 102: 19-21.
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  22. Zhong, S., B. Linjie, Z. Dong, W. Lei, L. Yuan and D. Liwen, 2013. Europium (III) coordination polymers micro/nanostructures: A ligand structure effect. Mater. Lett., 96: 125-127.
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  23. Linfei, Z., S. Zhong and A. Xu, 2013. Highly branched concave Au/Pd bimetallic nanocrystals with superior electrocatalytic activity and highly efficient SERS enhancement. Angew. Chem. Int. Ed., 52: 645-649.
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  24. Zhong, S., Z. Linfei, W. Lei, H. Weixin, F. Congmin and X. Anwu, 2012. Uniform and porous Ce1-xZnxO2- δ solid solution nanodisks: Preparation and their co oxidation activity J. Phys. Chem. C, 116: 13127-13132.
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  25. Zhong, S., L. Yang, G. Minrui, L. Shujuan, P. Jun, Z. Lecheng and Y. Shuhong, 2012. Monodisperse mesocrystals of YF3 and Ce3+, Ln3+ (Ln = Tb3+ and Eu3+) co-activated YF3: Shape control synthesis, luminescent properties and biocompatibility. Chem. Eur. J., 18: 5222-5231.
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  26. Zhao, D., W. Lei, L. Yuan, Z. Linfei, L. Yunhai and Z. Shengliang, 2012. Uniform europium-based infinite coordination polymer submicrospheres: Fast microwave synthesis and characterization. Inorg. Chem. Commun., 20: 97-100.
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  27. Zhang, L., W. Lei, Z. Shengliang, H. Yuxi and X. Anwu, 2012. Facile synthesis of concave decahedra enclosed by high-index facets and truncated decahedra with a large size. Dalton Trans., 41: 4948-4954.
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  28. Wang, L., Z. Lin-Fei, Z. Sheng-Liang and X. An-Wu, 2012. Highly uniform CeO2 hierarchical microstructures: Facile synthesis and catalytic activity evaluation. Appl. Surf. Sci., 263: 769-776.
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  29. Wang, L., Z. Dong, Z. Shengliang and X. Anwu, 2012. Facile synthesis and characterization of ZnO octahedral superstructures from solid-state transformation of Zn(II)-organic coordination polymers. CrystEngComm, 14: 6875-6880.
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  30. Sheng-Liang, Z., L. Long-Fei, W. Lei and Z. Lin-Fei, 2012. DyPO4 flower-like superstructures and macroporous microstructures from dysprosium-based coordination polymer wires. Powder Technol., 230: 151-157.
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  31. Zhong, S., Z. Linfei, J. Jianwen, X. Rong, X. Anwu and W. Shang-Ping, 2011. Gelatin-mediated hydrothermal synthesis of apple-Like LaCO3OH hierarchical nanostructures and tunable white-light emission. CrystEngComm, 13: 4151-4160.
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  32. Zhong, S., Z. Linfei, H. Zhenzhong and W. Shangping, 2011. Mixed-solvothermal synthesis of CdS micro/nanostructures and their optical properties. Appl. Surf. Sci., 257: 2599-2603.
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  33. Zhong, S., D. Bin, X. Anwu and W. Shangping, 2011. Preparation and characterization of 3D flower-like La2O3 nanostructures. Curr. Nanosci., 7: 407-414.
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  34. Xu, R., D. Bin, M. Lu, X. Huifen and Z. Shengliang, 2011. CuSn(OH)6 submicrospheres: Room-temperature synthesis and weak antiferromagnetic behavior. Mater. Lett., 65: 733-735.
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  35. Shi, H., D. Bin, Z. Shengliang, W. Lei and X. Anwu, 2011. Synthesis of zinc oxide nanoparticles with strong, tunable and stable visible light emission by solid-state transformation of Zn(II)-organic coordination polymers. J. Mater. Chem., 21: 12309-12315.
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  36. Sheng-Liang, Z., X. Rong, Z. Lin-Fei, Q. Wen-Gang, G. Gui-Qi, W. Xi-Lin and X. An-Wu, 2011. Terbium-based infinite coordination polymer hollow microspheres: preparation and white-light emission. J. Mater. Chem., 21: 16574-16580.
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  37. Sheng-Liang, Z., X. Rong, W. Lei, L. Yuan and Z. Lin-Fei, 2011. CuSn(OH)6 submicrospheres: Room-temperature synthesis, growth mechanism, and weak antiferromagnetic behavior. Mater. Res. Bull., 46: 2385-2391.
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  38. Qu, W., D. Bin, Z. Shengliang, S. Hongyan, W. Shasha and X. Anwu, 2011. Plasmonic resonance energy transfer-based nanospectroscopy for sensitive and selective detection of 2,4,6-trinitrotoluene (TNT). Chem. Commun., 47: 1237-1239.
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  39. Lu, Y., L. Yuan, Z. Dong, Z. Linfei and Z. Shengliang, 2011. Uniform YF3 nanorods: Synthesis, luminescent properties and cytotoxicity study. J. Rare Earths, 29: 1036-1039.
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  40. Deng, B., Z. Shengliang, W. Donghong, W. Shasha, Z. Tiekai, W. Qu and X. Anwu, 2011. High yield synthesis of matchstick-like PbS nanocrystals using mesoporous organosilica as template. Nanoscale, 3: 1014-1021.
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  41. Bin, D., L. Ding, J. Chen and S. Zhong, 2011. Porous Y2O3 microcubes: Synthesis and characterization. Rare Met., 30: 577-582.
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  42. Zhong, S., L. Yunhai, H. Zhengzhong, W. Shangping and C. Jianjun, 2010. Microwave-assisted synthesis of water-soluble YF3 and YF3:Ln3+ nanocrystals. Opt. Mater., 32: 966-970.
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  43. Zhong, S., C. Jianjun, W. Shangping, L. Qingyan, W. Yuling and W. Shijin, 2010. Y233+ hexagonal microprisms: Fast microwave synthesis and photoluminescence properties. J. Alloys Compd., 493: 322-325.
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  44. Wang, S., Z. Yongli, C. Jianjun, X. Rong, L. Longfei and Z. Shengliang, 2010. Self-assembled 3D La(OH)3 and La2O3 nanostructures : Fast microwave synthesis and characterization. Superlattices Microstruct., 47: 597-605.
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  45. Luo, L., X. Rong, Z. Dong and Z. Shengliang, 2010. One-dimensional (1D) europium coordination polymer wires: Synthesis, characterization and photoluminescence properties. J. Rare Earths, 28: 106-110.
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  46. Chen, J., Z. Shengliang, L. Qingyan, W. Yuling and W. Shangping et al., 2010. Cerium sulfate microdisks prepared by a solvothermal method and their conversion to ceria microdisks. Powder Technol., 197: 136-139.
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  47. Zhong, S., W. Shijin, X. Huaping, H. Haoqing and W. Zubiao et al., 2009. Spindlelike Y2O3 : Eu3+ nanorod bundles: Hydrothermal synthesis and photoluminescence properties. J. Mater. Sci., 44: 3687-3693.
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  48. Zhong, S., W. Shijin, X. Hualan, L. Chungen, H. Yixiang, W. Shangping and X. Rong, 2009. Facile synthesis of water-soluble YF3 and YF3: Ln3+ nanocrystals. Mater. Lett., 63: 530-532.
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  49. Zhong, S., W. Shijin, L. Qingyan, W. Yuling and W. Shangping et al., 2009. Y2O3: Eu3+ microstructures: Hydrothermal synthesis and photoluminescence properties. Mater. Res. Bull., 44: 2201-2205.
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  50. Zhang, Y., Z. Shengliang, Z. Maisheng and L. Yongcheng, 2009. Antibacterial activity of silver-loaded zeolite A prepared by a fast microwave-loading method. J. Mater. Sci., 44: 457-462.
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  51. Wang, Y., L. Qingyan, C. Yun and Z. Shengliang, 2009. In situ hydrothermal synthesis of a mononuclear copper (II) complex: Cu (H2SIP-O) (bpy) (H2O) (H4SIP-O= 4-Hydroxyl-5- sulfoisophthalic Acid). Chin. J. Struct. Chem., 28: 77-81.
  52. Wang, S., Z. Shengliang, X. Ou-yang, H. Na, C. Xiangshu, W. Shangping and X. Rong, 2009. Y(OH) 3 and Y2O3 with novel structures: Formation and mechanism. Mater. Sci. Eng. B, 162: 200-204.
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  53. Wang, S., Z. Shengliang, W. Zubiao, W. Yuling and W. Shangping et al., 2009. Synthesis and characterization of yttrium hydroxide and oxide microtubes. Rare Met., 28: 445-448.
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  54. Zhong, S., S. Jiming, Z. Sen, Y. Hongbin, X. Anwu, Y. Weitang and Y. Shuhong, 2008. Template-free hydrothermal synthesis and formation mechanism of hematite microrings. J. Phys. Chem. C, 112: 19916-19921.
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  55. Wang, S., X. Hualan, C. Xiangshu, Z. Shengliang and J. Jianwen et al., 2008. Solvothermal synthesis of disk-like YF3 superstructures. J. Cryst. Growth, 310: 4697-4700.
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