J
Jingbo Li
Researcher at Beijing Institute of Technology
Publications - 465
Citations - 22526
Jingbo Li is an academic researcher from Beijing Institute of Technology. The author has contributed to research in topics: Band gap & Heterojunction. The author has an hindex of 61, co-authored 403 publications receiving 17623 citations. Previous affiliations of Jingbo Li include Centre national de la recherche scientifique & University of Science and Technology Beijing.
Papers
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Self-Assembling VO2 Nanonet with High Switching Performance at Wafer-Scale
Jiasong Zhang,Haibo Jin,Zhuo Chen,Mao-Sheng Cao,Pengwan Chen,Yan-Kun Dou,Yongjie Zhao,Jingbo Li +7 more
TL;DR: In this article, the authors demonstrate a facile chemical solution method to self-assemble a regular and interconnected VO2 nanonet on the wafer scale, where the growth direction and crystallographic orientation of nanorods are synchronously controlled, leading to horizontally epitaxial growth along three symmetric directions of the (001) singlecrystal sapphire substrate.
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Symmetry-dependent transport properties and bipolar spin filtering in zigzag α -graphyne nanoribbons
TL;DR: In this paper, the authors investigated the transport properties of zigzag graphene nanoribbons (Z$\ensuremath{\alpha}$GNRs) and showed that the symmetry-dependent transport properties arise from different coupling rules between the two subbands around the Fermi level.
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Fe 2 O 3 nanocubes exposed (012) active facets combination with graphene rendering enhanced lithium storage capability
Yongjie Zhao,Dong Yan,Caihua Ding,Dezhi Su,Yiyao Ge,Yuzhen Zhao,Heping Zhou,Jingbo Li,Haibo Jin +8 more
TL;DR: In this article, a freeze-drying approach was utilized to construct nanostructured Fe2O3/graphene composite, which exhibited s higher BET surface area than that of bare Fe 2O3 nanocubes.
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Modulating the bandgaps of graphdiyne nanoribbons by transverse electric fields.
TL;DR: The effect of external transverse electric fields on the bandgaps of graphdiyne nanoribbons is investigated from first-principles calculations and the giant Stark effect is observed in the ribbons.
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Design of hierarchical CuS/graphene architectures with enhanced lithium storage capability
TL;DR: In this paper, the authors reported a delicate and scalable route for rational design of CuS/graphene composites, which exhibited high specific capacities, excellent cycling stability and desirable rate capability when being evaluated as anode materials for lithium-ion batteries.