SASDMW3 – Thermo Fisher polystyrene nanospheres with a diameter of 20 nm

Nominal 20 nm diameter polystyrene spheres

MW^experimental	1	kDa
MW^expected	8	kDa
V^Porod	3	nm³

log I(s) 5.99×10^-3 5.99×10^-4 5.99×10^-5 5.99×10^-6

Nominal 20 nm diameter polystyrene spheres small angle scattering data

s, nm^-1

Log plot Log-Log plot

ln I(s)

Nominal 20 nm diameter polystyrene spheres Guinier plot

ln 6.00×10^-3 R_g: 8.5 nm 0 (8.5 nm)^-2 s²

(sR_g)²I(s)/I(0)

Nominal 20 nm diameter polystyrene spheres Kratky plot

1.104 0 √3 sR_g

p(r)	R_g: 8.7 nm 0 D_max: 25 nm

Data validation

Experimental data range

p(r) fit to data

Metric

Value

s_min D_max / π

0.4

N_Shannon

Worse

Better

Metric

Value

p_cormap

χ²

0.262
0.946

Worse

Better

Fits and models

log I(s)	s, nm^-1
+3 Δ/σ -3	s, nm^-1

Nominal 20 nm diameter polystyrene spheres BODIES model

log I(s)	s, nm^-1
+3 Δ/σ -3	s, nm^-1

Nominal 20 nm diameter polystyrene spheres DAMMIF model

Synchrotron SAXS data from solutions of Thermo Fisher polystyrene nanospheres with a diameter of 20 nm in Water, pH 7 were collected on the EMBL P12 beam line at the PETRA III storage ring (DESY; Hamburg, Germany) using a Pilatus 6M detector at a sample-detector distance of 3 m and at a wavelength of λ = 0.123 nm (I(s) vs s, where s = 4πsinθ/λ, and 2θ is the scattering angle). One solute concentration of 6.00 mg/ml was measured at 20°C. 50 successive 0.100 second frames were collected. The data were normalized to the intensity of the transmitted beam and radially averaged; the scattering of the solvent-blank was subtracted.

Tags: benchmark softmatter

Nominal 20 nm diameter polystyrene spheres (Polystyrene spheres)
Mol. type		Other
Olig. state		0
Mon. MW		0.1 kDa
Chemical formula