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Beilstein J. Nanotechnol. 2018, 9, 2057–2070, doi:10.3762/bjnano.9.195
Scheme 1: Synthesis of tetraundecylcalix[4]resorcinarene–mPEG conjugate 3.
Figure 1: (a, b) 1H NMR spectra of (a) macrocycle 1 in acetone-d6 and (b) macrocycle 3 in CD3OD; (c, d) FTIR ...
Figure 2: (a) SAXS diffraction intensity profile of an aqueous solution of 3 (c3 = 137 mg/mL) at 23 °C (logar...
Figure 3: (a) The intensity-averaged particle size distribution of aqueous solutions of 3 at different concen...
Figure 4: (a) The dependence of the optical density of aqueous solutions of 3 at 550 nm on the solution tempe...
Figure 5: (a, b) Absorption spectra of Orange OT (a) and QC (b) in aqueous solutions of 3 and mPEG-550 (solub...
Figure 6: (a) 1H NMR spectra of Nap and 3 + Nap solutions in D2O; (b) 1H NMR spectra of IF and 3 + IF solutio...
Figure 7: In vitro release profiles of free RhB and RhB-loaded micelles of 3 in PBS release medium at pH 7.4.
Figure 8: (a) Fluorescence spectra of Dox in micelles of 3 in 0.9% NaCl solution at different temperatures, c3...
Beilstein J. Nanotechnol. 2018, 9, 1594–1601, doi:10.3762/bjnano.9.151
Scheme 1: Synthesis of SRA.
Scheme 2: Synthesis of p(SRA-B).
Figure 1: AFM images of p(SRA-B).
Figure 2: UV–vis and fluorescence spectra of (A) Fl, (B) Py and (C) PTS in aqueous media (black dashed line) ...
Scheme 3: Dye release from p(SRA-B) under the action of pH value or glucose.
Figure 3: Fluorescence spectra of free D (dashed lines) and D@p(SRA-B) (0.27 mg/mL) (solid lines) at pH 3–9 w...
Figure 4: (A) Fl@p(SRA-B) spectra after addition of glucose (0.4 mM); D release from D@p(SRA-B), where D = Fl...
Beilstein J. Nanotechnol. 2017, 8, 313–324, doi:10.3762/bjnano.8.34
Figure 1: Structures of isatin (1a–h), isoindigo derivatives 2a–h, 3 and anionic (sodium dodecyl sulfate, SDS...
Figure 2: Transmission electron micrographs (TEM) (a,b); histogram of the particle size distribution (c) of 2h...
Figure 3: Analysis of the size distribution of 2c (a), 2d (b), 2e (c), 2f (d), 2g (e), 2h (f) particles in wa...
Figure 4: (a) Absorbance of the dye (Sudan I) at 495 nm as a function of the concentration of 2g and 2h in wa...
Scheme 1: Supramolecular assemblies of isoindigo derivatives 2a–h.
Figure 5: Absorbance of 2a, 2b, 2d–g at λmax ≈ 395 nm and 1g, 3 at λmax = 300 nm in aqueous micellar SDS solu...
Figure 6: (a) Surface tension isotherms of SDS in the absence and presence of 2a and 3 in water, (b) Analysis...
Scheme 2: Solubilization of 2a and 3 in SDS.