Study on the statistical intensity distribution (SID) of fluorescent nanoparticles in TIRFM measurement

“…4(c) is shown the corresponding temporal evolution of the reduced dispersion coefficient for z 0 = 600±15 nm. While the data does not reach exactly (especially at early times) the theoretical prediction for the dot condition due to the polydispersity of the particles (and thus non-unique altitudes for a given intensity [43]), it is systematically below the one for the half-line condition and approaches the τ 2 asymptotic behaviour predicted by Eq. 3 for n = 0.…”

“…Figure 1(c) shows the streamwise velocity profiles for 55 nm-radius particles in water and several pressure drops. The solid lines show that the profiles are well approximated by linear functions (see SI and [35,43] for a discussion of the small non-linearities). The spread of v xintercept values arises from the spread of values for I 0 at each pressure, z = 0 being taken as the mean of Π log I 0 over the different ∆P ; z = 0 is thus resolved to within 20 nm of the solid/liquid interface assuming no slip [35] as justified in the SI.…”

Time dependence of advection-diffusion coupling for nanoparticle ensembles

“…4(c) is shown the corresponding temporal evolution of the reduced dispersion coefficient for z 0 = 600±15 nm. While the data does not reach exactly (especially at early times) the theoretical prediction for the dot condition due to the polydispersity of the particles (and thus non-unique altitudes for a given intensity [43]), it is systematically below the one for the half-line condition and approaches the τ 2 asymptotic behaviour predicted by Eq. 3 for n = 0.…”

“…Figure 1(c) shows the streamwise velocity profiles for 55 nm-radius particles in water and several pressure drops. The solid lines show that the profiles are well approximated by linear functions (see SI and [35,43] for a discussion of the small non-linearities). The spread of v xintercept values arises from the spread of values for I 0 at each pressure, z = 0 being taken as the mean of Π log I 0 over the different ∆P ; z = 0 is thus resolved to within 20 nm of the solid/liquid interface assuming no slip [35] as justified in the SI.…”

Time dependence of advection-diffusion coupling for nanoparticle ensembles

“…To investigate the effects of defocussing and polydispersity, we have used 63 the signal intensity distribution analyses of ref. 62, simultaneously fitting the distribution of intensities and velocity profiles and find good agreement with the slopes measured here, within 10% or so and not varying systematically with the imposed pressure.…”

“…6 2)), which are validated by the agreement of our measured water viscosity using TIRFM with accepted values. More directly, and while not shown here, we have verified that the angles thus measured in situ are in agreement with the typical method of projecting the laser through a half sphere placed atop the objective, 48,62 with the horizontal position of the laser measured as a function of x M .…”

“…These are mainly due to optical aberrations: because of the finite depth of field of the objective (415 nm), off-focal-plane tracers appear relatively less bright than their infocus counterparts. Expanding the typical 62 Lorentzian multiplicative factor for the intensity as a function of the particle's distance from the focal plane, and considering that the focal plane is typically a few hundred nanometres from the surface, we do not expect that the near-wall linear profile exhibits more than 10% change in the shear rate due to this defocusing effect. Polydispersity is also expected to play a role in tracer altitude estimation.…”

Near-surface rheology and hydrodynamic boundary condition of semi-dilute polymer solutions

Quantitative image analysis method for detection of nitrite with cyanine dye-NaYF4:Yb,Tm@NaYF4 upconversion nanoparticles composite luminescent probe