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Beilstein J. Nanotechnol. 2016, 7, 904–913, doi:10.3762/bjnano.7.82
Figure 1: (A) and (B) C. japonicus, excised hind wings in folded state (C) and unfolded state (D), where C is...
Figure 2: The unfolding process of the hind wings of C. japonicus captured by a high-speed camera.
Figure 3: The cross sections of (A) the wing base (C-S1), (B) the posterior part of the wing (C-S2) and (C) t...
Figure 4: Fluorescence flow sequence in an unfolding hind wing of C. japonicus, captured using a retinal came...
Figure 5: The change in blood pressure in the veins of the hind wings as a function of time.
Figure 6: The blood pressure is proportional to the length of the wings and the body mass.
Figure 7: The simulation results of static pressure in a vein of a hind wing.
Figure 8: Blood flow changes in the venation of a hind wing of C. japonicus at the entrance (A); pressure cha...