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3 article(s) from Sang, Shengbo

Rapid controlled synthesis of gold–platinum nanorods with excellent photothermal properties under 808 nm excitation

Jialin Wang,
Qianqian Duan,
Min Yang,
Boye Zhang,
Li Guo,
Pengcui Li,
Wendong Zhang and
Shengbo Sang

Beilstein J. Nanotechnol. 2021, 12, 462–472, doi:10.3762/bjnano.12.37

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Scheme 1: Schematic illustration of the synthesis and photothermal of the Au@Pt NRs.

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Figure 1: TEM images of (a) AuNRs, (b) Au@Pt−Ag⁺, and (c) Au@Pt+Ag⁺. (d) Absorption spectra of AuNRs (black),...

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Figure 2: (a) Absorption spectra of AuNRs and of Au@Pt NRs synthesized with different concentrations of Ag⁺. ...

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Figure 3: Absorption spectra of AuNRs and of different Au@Pt NRs synthesized in (a) absence and (c) presence ...

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Figure 4: (a) Absorption spectra of AuNRs and of Au@Pt NRs prepared under optimal conditions. (b) TEM image o...

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Figure 5: (a) Temperature elevation curves of deionized water (black), AuNRs solution (OD = 0.5, red) and Au@...

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Figure 6: Heating and cooling curves of (a) AuNRs and (c) Au@Pt NRs under 808 nm laser irradiation. Linear fi...

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Figure 7: Temperature change curve of (a) Au@Pt NPs solution and (b) AuNRs solution during four on/off cycles...

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Full Research Paper

Published 17 May 2021

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Piezoelectric sensor based on graphene-doped PVDF nanofibers for sign language translation

Shuai Yang,
Xiaojing Cui,
Rui Guo,
Zhiyi Zhang,
Shengbo Sang and
Hulin Zhang

Beilstein J. Nanotechnol. 2020, 11, 1655–1662, doi:10.3762/bjnano.11.148

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Figure 1: (a) Schematic diagram of a self-powered PES based on GR-doped PVDF. (b) Schematic diagram of an eff...

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Figure 2: (a) Preparation of the self-powered GR-doped PVDF PES. (b) SEM images of PVDF fibers with different...

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Figure 3: (a) Schematic diagram of the PES under external pressure. (b) Output voltage as a function of the a...

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Figure 4: (a) Output signal when a sign language “Y” is shown. (b) Output signal when a sign language “Hello”...

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Full Research Paper

Published 02 Nov 2020

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Resonance of graphene nanoribbons doped with nitrogen and boron: a molecular dynamics study

Ye Wei,
Haifei Zhan,
Kang Xia,
Wendong Zhang,
Shengbo Sang and
Yuantong Gu

Beilstein J. Nanotechnol. 2014, 5, 717–725, doi:10.3762/bjnano.5.84

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Figure 1: (a) A perfect GNR with 3% B-dopant. (b) A perfect GNR with 1.5% B- and 1.5% N-dopant. (c) Velocity ...

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Figure 2: (a) Variation in time of the external energy obtained from a perfect GNR. (b) The corresponding fre...

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Figure 3: Variation of history of the external energy over time for a perfect GNR with B-dopant densities of ...

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Figure 4: Variation of the external energy over time for a perfect GNR with B- and N-dopants. The total densi...

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Figure 5: (a) Variation of the external energy over time obtained for a pristine GNR with two vacancies. The ...

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Figure 6: Variation of the external energy over time for a defective GNR (two vacancies) with B-dopant. The d...

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Figure 7: Variation of the external energy over time for the defective GNR (two vacancies) with both B- and N...

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Figure 8: (a) Time history of the external energy obtained from pristine defective GNR with four vacancies. T...

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Figure 9: Variation over time of the external energy of the defective GNR with four vacancies and B-dopant de...

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Figure 10: Variation over time of the external energy for the defective GNR (four vacancies) with both B- and ...

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Figure 11: Results of the defective GNR (four vacancies) with 1.20% B- and 1.20% N-dopant. (a) Variation over ...

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Figure 12: (a) Comparisons of the relative natural frequency among all studied samples. (b) Comparisons of the...

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Full Research Paper

Published 27 May 2014

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