N
Ning Song
Researcher at Jiangsu University
Publications - 19
Citations - 1187
Ning Song is an academic researcher from Jiangsu University. The author has contributed to research in topics: Photocatalysis & Water splitting. The author has an hindex of 12, co-authored 19 publications receiving 573 citations.
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Journal ArticleDOI
Bimetallic synergetic regulating effect on electronic structure in cobalt/vanadium co-doped carbon nitride for boosting photocatalytic performance
Hongjun Dong,Yan Zuo,Ning Song,Shihuan Hong,Mengya Xiao,Daqiang Zhu,Jingxue Sun,Gang Chen,Chunmei Li +8 more
TL;DR: In this paper, the degradation rate constant and TOC removal efficiency of TC−HCl in 120 min over the Co/V-g-C3N4-2 sample run up to 4.00 and 2.45 times as much as that of g-C 3N4, respectively.
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Facile construction of porous intramolecular g-C3N4-based donor-acceptor conjugated copolymers as highly efficient photocatalysts for superior H2 evolution
TL;DR: In this paper, a novel intramolecular g-C3N4-based donor-acceptor (D-A) conjugated copolymers with a porous structure and large specific surface area, have been facilely prepared by copolymerizing urea with melamine-formaldehyde (MF) resin.
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Construction of morphology-controlled nonmetal 2D/3D homojunction towards enhancing photocatalytic activity and mechanism insight
Hongjun Dong,Hongjun Dong,Xiaoxu Zhang,Jiaming Li,Pengjie Zhou,Siyu Yu,Ning Song,Chunbo Liu,Guangbo Che,Chunmei Li +9 more
TL;DR: Wang et al. as discussed by the authors constructed a nonmetal 2D/3D homojunction via the facile surface in-situ polymerization process, where 3D g-C3N4 (3D CC) microspheres tightly anchor on the surface of 2D g−C−N 4 (2D CN) nanosheets.
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Nitrogen doped carbon ribbons modified g-C3N4 for markedly enhanced photocatalytic H2-production in visible to near-infrared region
TL;DR: In this paper, urea formaldehyde resin-carbonized nitrogen doped carbon (UFR-NC) ribbons modified g-C3N4 nanosheets were prepared by a facile thermal treatment method.
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Construction of a Z-scheme MoS2/CaTiO3 heterostructure by the morphology-controlled strategy towards enhancing photocatalytic activity
TL;DR: In this paper, a new Z-scheme MoS2/CaTiO3 heterostructure is constructed via the morphology-controlled strategy, in which the MoS 2 nanospheres tightly anchor on the surface of macroporous multishelled hollow CaTiO 3 cubes.