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Shulan Ma
Researcher at Beijing Normal University
Publications - 123
Citations - 5246
Shulan Ma is an academic researcher from Beijing Normal University. The author has contributed to research in topics: Luminescence & Hydroxide. The author has an hindex of 29, co-authored 123 publications receiving 3854 citations. Previous affiliations of Shulan Ma include Northwestern University.
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Journal ArticleDOI
Hierarchical Nanoassembly of MoS2/Co9S8/Ni3S2/Ni as a Highly Efficient Electrocatalyst for Overall Water Splitting in a Wide pH Range.
Yan Yang,Huiqin Yao,Zihuan Yu,Saiful Islam,Saiful Islam,Haiying He,Mengwei Yuan,Yonghai Yue,Kang Xu,Weichang Hao,Genban Sun,Huifeng Li,Shulan Ma,Shulan Ma,Peter Zapol,Mercouri G. Kanatzidis,Mercouri G. Kanatzidis +16 more
TL;DR: The results demonstrate that hierarchical metal sulfides can serve as highly efficient all-pH (pH = 0-14) electrocatalysts for overall water splitting.
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Highly Selective and Efficient Removal of Heavy Metals by Layered Double Hydroxide Intercalated with the MoS42– Ion
TL;DR: The MoS4(2-) ion was intercalated into magnesium-aluminum layered double hydroxide to produce a single phase material of Mg0.66Al0.34(OH)2(MoS4)0.17·nH2O (MgAl-MoS 4-LDH), which demonstrates highly selective binding and extremely efficient removal of heavy metal ions.
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Efficient uranium capture by polysulfide/layered double hydroxide composites.
Shulan Ma,Shulan Ma,Lu Huang,Lijiao Ma,Yurina Shim,Saiful Islam,Pengli Wang,Li-Dong Zhao,Li-Dong Zhao,Shichao Wang,Genban Sun,Xiaojing Yang,Mercouri G. Kanatzidis +12 more
TL;DR: The promising adsorption performance of S(x)-LDH composites for uranyl ions from a variety of aqueous solutions including seawater shows superior selectivity for UO2(2+), over previously reported sorbents.
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Hexagonal and cubic Ni nanocrystals grown on graphene: phase-controlled synthesis, characterization and their enhanced microwave absorption properties
TL;DR: In this paper, the reduction process of graphite oxide (GO) sheets into GN was accompanied by the generation of hexagonal close-packed Ni (h-Ni) nanocrystals and face-centered cubic Ni (c-Ni)-noflowers with uniform size and high dispersion.
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Enhancing the electromagnetic performance of co through the phase-controlled synthesis of hexagonal and cubic Co nanocrystals grown on graphene
TL;DR: A method for enhancing the electromagnetic property of metal Co via phase-controlled synthesis of Co nanostructures grown on graphene (GN) networks has been developed and as-synthesized Co/GN nanocomposites showed excellent microwave absorbability in comparison with the corresponding Co nanocrystals or GN.