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Beilstein J. Nanotechnol. 2021, 12, 462–472, doi:10.3762/bjnano.12.37
Scheme 1: Schematic illustration of the synthesis and photothermal of the Au@Pt NRs.
Figure 1: TEM images of (a) AuNRs, (b) Au@Pt−Ag+, and (c) Au@Pt+Ag+. (d) Absorption spectra of AuNRs (black),...
Figure 2: (a) Absorption spectra of AuNRs and of Au@Pt NRs synthesized with different concentrations of Ag+. ...
Figure 3: Absorption spectra of AuNRs and of different Au@Pt NRs synthesized in (a) absence and (c) presence ...
Figure 4: (a) Absorption spectra of AuNRs and of Au@Pt NRs prepared under optimal conditions. (b) TEM image o...
Figure 5: (a) Temperature elevation curves of deionized water (black), AuNRs solution (OD = 0.5, red) and Au@...
Figure 6: Heating and cooling curves of (a) AuNRs and (c) Au@Pt NRs under 808 nm laser irradiation. Linear fi...
Figure 7: Temperature change curve of (a) Au@Pt NPs solution and (b) AuNRs solution during four on/off cycles...
Beilstein J. Nanotechnol. 2020, 11, 1655–1662, doi:10.3762/bjnano.11.148
Figure 1: (a) Schematic diagram of a self-powered PES based on GR-doped PVDF. (b) Schematic diagram of an eff...
Figure 2: (a) Preparation of the self-powered GR-doped PVDF PES. (b) SEM images of PVDF fibers with different...
Figure 3: (a) Schematic diagram of the PES under external pressure. (b) Output voltage as a function of the a...
Figure 4: (a) Output signal when a sign language “Y” is shown. (b) Output signal when a sign language “Hello”...
Beilstein J. Nanotechnol. 2014, 5, 717–725, doi:10.3762/bjnano.5.84
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 ...
Figure 2: (a) Variation in time of the external energy obtained from a perfect GNR. (b) The corresponding fre...
Figure 3: Variation of history of the external energy over time for a perfect GNR with B-dopant densities of ...
Figure 4: Variation of the external energy over time for a perfect GNR with B- and N-dopants. The total densi...
Figure 5: (a) Variation of the external energy over time obtained for a pristine GNR with two vacancies. The ...
Figure 6: Variation of the external energy over time for a defective GNR (two vacancies) with B-dopant. The d...
Figure 7: Variation of the external energy over time for the defective GNR (two vacancies) with both B- and N...
Figure 8: (a) Time history of the external energy obtained from pristine defective GNR with four vacancies. T...
Figure 9: Variation over time of the external energy of the defective GNR with four vacancies and B-dopant de...
Figure 10: Variation over time of the external energy for the defective GNR (four vacancies) with both B- and ...
Figure 11: Results of the defective GNR (four vacancies) with 1.20% B- and 1.20% N-dopant. (a) Variation over ...
Figure 12: (a) Comparisons of the relative natural frequency among all studied samples. (b) Comparisons of the...